X-Git-Url: http://drtracing.org/?a=blobdiff_plain;f=gdb%2Frs6000-tdep.c;h=812e9a8eedcfc77a221ac4b24392ec42fdaa496c;hb=1174497c8ae1bf9293addcb216c48dbdbf487e4f;hp=39d7ff4e25480ad605b1eb094dc11bc64c4cb08a;hpb=05d52ace86cc898264acb8f23a97e22cb199ed36;p=deliverable%2Fbinutils-gdb.git diff --git a/gdb/rs6000-tdep.c b/gdb/rs6000-tdep.c index 39d7ff4e25..812e9a8eed 100644 --- a/gdb/rs6000-tdep.c +++ b/gdb/rs6000-tdep.c @@ -2,21 +2,22 @@ Copyright 1986, 1987, 1989, 1991, 1992, 1993, 1994, 1995, 1996, 1997 Free Software Foundation, Inc. -This file is part of GDB. + This file is part of GDB. -This program is free software; you can redistribute it and/or modify -it under the terms of the GNU General Public License as published by -the Free Software Foundation; either version 2 of the License, or -(at your option) any later version. + This program is free software; you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation; either version 2 of the License, or + (at your option) any later version. -This program is distributed in the hope that it will be useful, -but WITHOUT ANY WARRANTY; without even the implied warranty of -MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -GNU General Public License for more details. + This program is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. -You should have received a copy of the GNU General Public License -along with this program; if not, write to the Free Software -Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ + You should have received a copy of the GNU General Public License + along with this program; if not, write to the Free Software + Foundation, Inc., 59 Temple Place - Suite 330, + Boston, MA 02111-1307, USA. */ #include "defs.h" #include "frame.h" @@ -24,25 +25,23 @@ Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "symtab.h" #include "target.h" #include "gdbcore.h" +#include "gdbcmd.h" #include "symfile.h" #include "objfiles.h" #include "xcoffsolib.h" -extern struct obstack frame_cache_obstack; - extern int errno; -/* Nonzero if we just simulated a single step break. */ -int one_stepped; - /* Breakpoint shadows for the single step instructions will be kept here. */ -static struct sstep_breaks { - /* Address, or 0 if this is not in use. */ - CORE_ADDR address; - /* Shadow contents. */ - char data[4]; -} stepBreaks[2]; +static struct sstep_breaks + { + /* Address, or 0 if this is not in use. */ + CORE_ADDR address; + /* Shadow contents. */ + char data[4]; + } +stepBreaks[2]; /* Hook for determining the TOC address when calling functions in the inferior under AIX. The initialization code in rs6000-nat.c sets @@ -52,13 +51,73 @@ CORE_ADDR (*find_toc_address_hook) PARAMS ((CORE_ADDR)) = NULL; /* Static function prototypes */ -static CORE_ADDR branch_dest PARAMS ((int opcode, int instr, CORE_ADDR pc, - CORE_ADDR safety)); + static CORE_ADDR branch_dest PARAMS ((int opcode, int instr, CORE_ADDR pc, + CORE_ADDR safety)); + + static void frame_get_saved_regs PARAMS ((struct frame_info * fi, + struct rs6000_framedata * fdatap)); + + static void pop_dummy_frame PARAMS ((void)); + + static CORE_ADDR frame_initial_stack_address PARAMS ((struct frame_info *)); -static void frame_get_cache_fsr PARAMS ((struct frame_info *fi, - struct rs6000_framedata *fdatap)); +CORE_ADDR +rs6000_skip_prologue (pc) + CORE_ADDR pc; +{ + struct rs6000_framedata frame; + pc = skip_prologue (pc, &frame); + return pc; +} + + +/* Fill in fi->saved_regs */ + +struct frame_extra_info +{ + /* Functions calling alloca() change the value of the stack + pointer. We need to use initial stack pointer (which is saved in + r31 by gcc) in such cases. If a compiler emits traceback table, + then we should use the alloca register specified in traceback + table. FIXME. */ + CORE_ADDR initial_sp; /* initial stack pointer. */ +}; + +void +rs6000_init_extra_frame_info (fromleaf, fi) + int fromleaf; + struct frame_info *fi; +{ + fi->extra_info = (struct frame_extra_info *) + frame_obstack_alloc (sizeof (struct frame_extra_info)); + fi->extra_info->initial_sp = 0; + if (fi->next != (CORE_ADDR) 0 + && fi->pc < TEXT_SEGMENT_BASE) + /* We're in get_prev_frame */ + /* and this is a special signal frame. */ + /* (fi->pc will be some low address in the kernel, */ + /* to which the signal handler returns). */ + fi->signal_handler_caller = 1; +} + + +void +rs6000_frame_init_saved_regs (fi) + struct frame_info *fi; +{ + frame_get_saved_regs (fi, NULL); +} + +CORE_ADDR +rs6000_frame_args_address (fi) + struct frame_info *fi; +{ + if (fi->extra_info->initial_sp != 0) + return fi->extra_info->initial_sp; + else + return frame_initial_stack_address (fi); +} -static void pop_dummy_frame PARAMS ((void)); /* Calculate the destination of a branch/jump. Return -1 if not a branch. */ @@ -76,54 +135,93 @@ branch_dest (opcode, instr, pc, safety) absolute = (int) ((instr >> 1) & 1); - switch (opcode) { - case 18 : - immediate = ((instr & ~3) << 6) >> 6; /* br unconditional */ - if (absolute) - dest = immediate; - else - dest = pc + immediate; - break; - - case 16 : - immediate = ((instr & ~3) << 16) >> 16; /* br conditional */ - if (absolute) - dest = immediate; - else - dest = pc + immediate; - break; - - case 19 : - ext_op = (instr>>1) & 0x3ff; - - if (ext_op == 16) /* br conditional register */ + switch (opcode) + { + case 18: + immediate = ((instr & ~3) << 6) >> 6; /* br unconditional */ + if (absolute) + dest = immediate; + else + dest = pc + immediate; + break; + + case 16: + immediate = ((instr & ~3) << 16) >> 16; /* br conditional */ + if (absolute) + dest = immediate; + else + dest = pc + immediate; + break; + + case 19: + ext_op = (instr >> 1) & 0x3ff; + + if (ext_op == 16) /* br conditional register */ + { dest = read_register (LR_REGNUM) & ~3; - else if (ext_op == 528) /* br cond to count reg */ - { - dest = read_register (CTR_REGNUM) & ~3; - - /* If we are about to execute a system call, dest is something - like 0x22fc or 0x3b00. Upon completion the system call - will return to the address in the link register. */ - if (dest < TEXT_SEGMENT_BASE) - dest = read_register (LR_REGNUM) & ~3; - } - else return -1; - break; - - default: return -1; - } + /* If we are about to return from a signal handler, dest is + something like 0x3c90. The current frame is a signal handler + caller frame, upon completion of the sigreturn system call + execution will return to the saved PC in the frame. */ + if (dest < TEXT_SEGMENT_BASE) + { + struct frame_info *fi; + + fi = get_current_frame (); + if (fi != NULL) + dest = read_memory_integer (fi->frame + SIG_FRAME_PC_OFFSET, + 4); + } + } + + else if (ext_op == 528) /* br cond to count reg */ + { + dest = read_register (CTR_REGNUM) & ~3; + + /* If we are about to execute a system call, dest is something + like 0x22fc or 0x3b00. Upon completion the system call + will return to the address in the link register. */ + if (dest < TEXT_SEGMENT_BASE) + dest = read_register (LR_REGNUM) & ~3; + } + else + return -1; + break; + + default: + return -1; + } return (dest < TEXT_SEGMENT_BASE) ? safety : dest; } +/* Sequence of bytes for breakpoint instruction. */ + +#define BIG_BREAKPOINT { 0x7d, 0x82, 0x10, 0x08 } +#define LITTLE_BREAKPOINT { 0x08, 0x10, 0x82, 0x7d } + +unsigned char * +rs6000_breakpoint_from_pc (bp_addr, bp_size) + CORE_ADDR *bp_addr; + int *bp_size; +{ + static unsigned char big_breakpoint[] = BIG_BREAKPOINT; + static unsigned char little_breakpoint[] = LITTLE_BREAKPOINT; + *bp_size = 4; + if (TARGET_BYTE_ORDER == BIG_ENDIAN) + return big_breakpoint; + else + return little_breakpoint; +} + /* AIX does not support PT_STEP. Simulate it. */ void -single_step (signal) - enum target_signal signal; +rs6000_software_single_step (signal, insert_breakpoints_p) + unsigned int signal; + int insert_breakpoints_p; { #define INSNLEN(OPCODE) 4 @@ -135,64 +233,68 @@ single_step (signal) CORE_ADDR breaks[2]; int opcode; - if (!one_stepped) { - loc = read_pc (); + if (insert_breakpoints_p) + { - insn = read_memory_integer (loc, 4); + loc = read_pc (); - breaks[0] = loc + INSNLEN(insn); - opcode = insn >> 26; - breaks[1] = branch_dest (opcode, insn, loc, breaks[0]); + insn = read_memory_integer (loc, 4); - /* Don't put two breakpoints on the same address. */ - if (breaks[1] == breaks[0]) - breaks[1] = -1; + breaks[0] = loc + INSNLEN (insn); + opcode = insn >> 26; + breaks[1] = branch_dest (opcode, insn, loc, breaks[0]); - stepBreaks[1].address = 0; + /* Don't put two breakpoints on the same address. */ + if (breaks[1] == breaks[0]) + breaks[1] = -1; - for (ii=0; ii < 2; ++ii) { + stepBreaks[1].address = 0; - /* ignore invalid breakpoint. */ - if ( breaks[ii] == -1) - continue; + for (ii = 0; ii < 2; ++ii) + { - read_memory (breaks[ii], stepBreaks[ii].data, 4); + /* ignore invalid breakpoint. */ + if (breaks[ii] == -1) + continue; - write_memory (breaks[ii], breakp, 4); - stepBreaks[ii].address = breaks[ii]; - } + read_memory (breaks[ii], stepBreaks[ii].data, 4); + + write_memory (breaks[ii], breakp, 4); + stepBreaks[ii].address = breaks[ii]; + } - one_stepped = 1; - } else { + } + else + { - /* remove step breakpoints. */ - for (ii=0; ii < 2; ++ii) - if (stepBreaks[ii].address != 0) - write_memory - (stepBreaks[ii].address, stepBreaks[ii].data, 4); + /* remove step breakpoints. */ + for (ii = 0; ii < 2; ++ii) + if (stepBreaks[ii].address != 0) + write_memory + (stepBreaks[ii].address, stepBreaks[ii].data, 4); - one_stepped = 0; - } + } errno = 0; /* FIXME, don't ignore errors! */ - /* What errors? {read,write}_memory call error(). */ + /* What errors? {read,write}_memory call error(). */ } /* return pc value after skipping a function prologue and also return information about a function frame. - in struct rs6000_frameinfo fdata: - - frameless is TRUE, if function does not have a frame. - - nosavedpc is TRUE, if function does not save %pc value in its frame. - - offset is the number of bytes used in the frame to save registers. - - saved_gpr is the number of the first saved gpr. - - saved_fpr is the number of the first saved fpr. - - alloca_reg is the number of the register used for alloca() handling. - Otherwise -1. - - gpr_offset is the offset of the saved gprs - - fpr_offset is the offset of the saved fprs - - lr_offset is the offset of the saved lr - - cr_offset is the offset of the saved cr + in struct rs6000_framedata fdata: + - frameless is TRUE, if function does not have a frame. + - nosavedpc is TRUE, if function does not save %pc value in its frame. + - offset is the initial size of this stack frame --- the amount by + which we decrement the sp to allocate the frame. + - saved_gpr is the number of the first saved gpr. + - saved_fpr is the number of the first saved fpr. + - alloca_reg is the number of the register used for alloca() handling. + Otherwise -1. + - gpr_offset is the offset of the first saved gpr from the previous frame. + - fpr_offset is the offset of the first saved fpr from the previous frame. + - lr_offset is the offset of the saved lr + - cr_offset is the offset of the saved cr */ #define SIGNED_SHORT(x) \ @@ -205,7 +307,7 @@ single_step (signal) CORE_ADDR skip_prologue (pc, fdata) CORE_ADDR pc; - struct rs6000_framedata *fdata; + struct rs6000_framedata *fdata; { CORE_ADDR orig_pc = pc; char buf[4]; @@ -235,138 +337,191 @@ skip_prologue (pc, fdata) pc += 4; op = read_memory_integer (pc, 4); - if ((op & 0xfc1fffff) == 0x7c0802a6) { /* mflr Rx */ - lr_reg = (op & 0x03e00000) | 0x90010000; - continue; + if ((op & 0xfc1fffff) == 0x7c0802a6) + { /* mflr Rx */ + lr_reg = (op & 0x03e00000) | 0x90010000; + continue; - } else if ((op & 0xfc1fffff) == 0x7c000026) { /* mfcr Rx */ - cr_reg = (op & 0x03e00000) | 0x90010000; - continue; + } + else if ((op & 0xfc1fffff) == 0x7c000026) + { /* mfcr Rx */ + cr_reg = (op & 0x03e00000) | 0x90010000; + continue; + + } + else if ((op & 0xfc1f0000) == 0xd8010000) + { /* stfd Rx,NUM(r1) */ + reg = GET_SRC_REG (op); + if (fdata->saved_fpr == -1 || fdata->saved_fpr > reg) + { + fdata->saved_fpr = reg; + fdata->fpr_offset = SIGNED_SHORT (op) + offset; + } + continue; + + } + else if (((op & 0xfc1f0000) == 0xbc010000) || /* stm Rx, NUM(r1) */ + ((op & 0xfc1f0000) == 0x90010000 && /* st rx,NUM(r1), + rx >= r13 */ + (op & 0x03e00000) >= 0x01a00000)) + { + + reg = GET_SRC_REG (op); + if (fdata->saved_gpr == -1 || fdata->saved_gpr > reg) + { + fdata->saved_gpr = reg; + fdata->gpr_offset = SIGNED_SHORT (op) + offset; + } + continue; + + } + else if ((op & 0xffff0000) == 0x3c000000) + { /* addis 0,0,NUM, used + for >= 32k frames */ + fdata->offset = (op & 0x0000ffff) << 16; + fdata->frameless = 0; + continue; + + } + else if ((op & 0xffff0000) == 0x60000000) + { /* ori 0,0,NUM, 2nd ha + lf of >= 32k frames */ + fdata->offset |= (op & 0x0000ffff); + fdata->frameless = 0; + continue; + + } + else if ((op & 0xffff0000) == lr_reg) + { /* st Rx,NUM(r1) + where Rx == lr */ + fdata->lr_offset = SIGNED_SHORT (op) + offset; + fdata->nosavedpc = 0; + lr_reg = 0; + continue; - } else if ((op & 0xfc1f0000) == 0xd8010000) { /* stfd Rx,NUM(r1) */ - reg = GET_SRC_REG (op); - if (fdata->saved_fpr == -1 || fdata->saved_fpr > reg) { - fdata->saved_fpr = reg; - fdata->fpr_offset = SIGNED_SHORT (op) + offset; } - continue; + else if ((op & 0xffff0000) == cr_reg) + { /* st Rx,NUM(r1) + where Rx == cr */ + fdata->cr_offset = SIGNED_SHORT (op) + offset; + cr_reg = 0; + continue; - } else if (((op & 0xfc1f0000) == 0xbc010000) || /* stm Rx, NUM(r1) */ - ((op & 0xfc1f0000) == 0x90010000 && /* st rx,NUM(r1), rx >= r13 */ - (op & 0x03e00000) >= 0x01a00000)) { + } + else if (op == 0x48000005) + { /* bl .+4 used in + -mrelocatable */ + continue; - reg = GET_SRC_REG (op); - if (fdata->saved_gpr == -1 || fdata->saved_gpr > reg) { - fdata->saved_gpr = reg; - fdata->gpr_offset = SIGNED_SHORT (op) + offset; } - continue; - - } else if ((op & 0xffff0000) == 0x3c000000) { /* addis 0,0,NUM, used for >= 32k frames */ - fdata->offset = (op & 0x0000ffff) << 16; - fdata->frameless = 0; - continue; - - } else if ((op & 0xffff0000) == 0x60000000) { /* ori 0,0,NUM, 2nd half of >= 32k frames */ - fdata->offset |= (op & 0x0000ffff); - fdata->frameless = 0; - continue; - - } else if ((op & 0xffff0000) == lr_reg) { /* st Rx,NUM(r1) where Rx == lr */ - fdata->lr_offset = SIGNED_SHORT (op) + offset; - fdata->nosavedpc = 0; - lr_reg = 0; - continue; - - } else if ((op & 0xffff0000) == cr_reg) { /* st Rx,NUM(r1) where Rx == cr */ - fdata->cr_offset = SIGNED_SHORT (op) + offset; - cr_reg = 0; - continue; - - } else if (op == 0x48000005) { /* bl .+4 used in -mrelocatable */ - continue; - - } else if (op == 0x48000004) { /* b .+4 (xlc) */ - break; - - } else if (((op & 0xffff0000) == 0x801e0000 || /* lwz 0,NUM(r30), used in V.4 -mrelocatable */ - op == 0x7fc0f214) && /* add r30,r0,r30, used in V.4 -mrelocatable */ - lr_reg == 0x901e0000) { - continue; - - } else if ((op & 0xffff0000) == 0x3fc00000 || /* addis 30,0,foo@ha, used in V.4 -mminimal-toc */ - (op & 0xffff0000) == 0x3bde0000) { /* addi 30,30,foo@l */ - continue; - - } else if ((op & 0xfc000000) == 0x48000000) { /* bl foo, to save fprs??? */ - - fdata->frameless = 0; - /* Don't skip over the subroutine call if it is not within the first - three instructions of the prologue. */ - if ((pc - orig_pc) > 8) + else if (op == 0x48000004) + { /* b .+4 (xlc) */ break; - op = read_memory_integer (pc+4, 4); - - /* At this point, make sure this is not a trampoline function - (a function that simply calls another functions, and nothing else). - If the next is not a nop, this branch was part of the function - prologue. */ - - if (op == 0x4def7b82 || op == 0) /* crorc 15, 15, 15 */ - break; /* don't skip over this branch */ - - continue; - - /* update stack pointer */ - } else if ((op & 0xffff0000) == 0x94210000) { /* stu r1,NUM(r1) */ - fdata->frameless = 0; - fdata->offset = SIGNED_SHORT (op); - offset = fdata->offset; - continue; - - } else if (op == 0x7c21016e) { /* stwux 1,1,0 */ - fdata->frameless = 0; - offset = fdata->offset; - continue; - - /* Load up minimal toc pointer */ - } else if ((op >> 22) == 0x20f - && ! minimal_toc_loaded) { /* l r31,... or l r30,... */ - minimal_toc_loaded = 1; - continue; - - /* store parameters in stack */ - } else if ((op & 0xfc1f0000) == 0x90010000 || /* st rx,NUM(r1) */ - (op & 0xfc1f0000) == 0xd8010000 || /* stfd Rx,NUM(r1) */ - (op & 0xfc1f0000) == 0xfc010000) { /* frsp, fp?,NUM(r1) */ - continue; - - /* store parameters in stack via frame pointer */ - } else if (framep && - ((op & 0xfc1f0000) == 0x901f0000 || /* st rx,NUM(r1) */ - (op & 0xfc1f0000) == 0xd81f0000 || /* stfd Rx,NUM(r1) */ - (op & 0xfc1f0000) == 0xfc1f0000)) { /* frsp, fp?,NUM(r1) */ - continue; - - /* Set up frame pointer */ - } else if (op == 0x603f0000 /* oril r31, r1, 0x0 */ - || op == 0x7c3f0b78) { /* mr r31, r1 */ - fdata->frameless = 0; - framep = 1; - fdata->alloca_reg = 31; - continue; - - /* Another way to set up the frame pointer. */ - } else if ((op & 0xfc1fffff) == 0x38010000) { /* addi rX, r1, 0x0 */ - fdata->frameless = 0; - framep = 1; - fdata->alloca_reg = (op & ~0x38010000) >> 21; - continue; - - } else { - break; - } + } + else if (((op & 0xffff0000) == 0x801e0000 || /* lwz 0,NUM(r30), used + in V.4 -mrelocatable */ + op == 0x7fc0f214) && /* add r30,r0,r30, used + in V.4 -mrelocatable */ + lr_reg == 0x901e0000) + { + continue; + + } + else if ((op & 0xffff0000) == 0x3fc00000 || /* addis 30,0,foo@ha, used + in V.4 -mminimal-toc */ + (op & 0xffff0000) == 0x3bde0000) + { /* addi 30,30,foo@l */ + continue; + + } + else if ((op & 0xfc000001) == 0x48000001) + { /* bl foo, + to save fprs??? */ + + fdata->frameless = 0; + /* Don't skip over the subroutine call if it is not within the first + three instructions of the prologue. */ + if ((pc - orig_pc) > 8) + break; + + op = read_memory_integer (pc + 4, 4); + + /* At this point, make sure this is not a trampoline function + (a function that simply calls another functions, and nothing else). + If the next is not a nop, this branch was part of the function + prologue. */ + + if (op == 0x4def7b82 || op == 0) /* crorc 15, 15, 15 */ + break; /* don't skip over + this branch */ + continue; + + /* update stack pointer */ + } + else if ((op & 0xffff0000) == 0x94210000) + { /* stu r1,NUM(r1) */ + fdata->frameless = 0; + fdata->offset = SIGNED_SHORT (op); + offset = fdata->offset; + continue; + + } + else if (op == 0x7c21016e) + { /* stwux 1,1,0 */ + fdata->frameless = 0; + offset = fdata->offset; + continue; + + /* Load up minimal toc pointer */ + } + else if ((op >> 22) == 0x20f + && !minimal_toc_loaded) + { /* l r31,... or l r30,... */ + minimal_toc_loaded = 1; + continue; + + /* store parameters in stack */ + } + else if ((op & 0xfc1f0000) == 0x90010000 || /* st rx,NUM(r1) */ + (op & 0xfc1f0000) == 0xd8010000 || /* stfd Rx,NUM(r1) */ + (op & 0xfc1f0000) == 0xfc010000) + { /* frsp, fp?,NUM(r1) */ + continue; + + /* store parameters in stack via frame pointer */ + } + else if (framep && + ((op & 0xfc1f0000) == 0x901f0000 || /* st rx,NUM(r1) */ + (op & 0xfc1f0000) == 0xd81f0000 || /* stfd Rx,NUM(r1) */ + (op & 0xfc1f0000) == 0xfc1f0000)) + { /* frsp, fp?,NUM(r1) */ + continue; + + /* Set up frame pointer */ + } + else if (op == 0x603f0000 /* oril r31, r1, 0x0 */ + || op == 0x7c3f0b78) + { /* mr r31, r1 */ + fdata->frameless = 0; + framep = 1; + fdata->alloca_reg = 31; + continue; + + /* Another way to set up the frame pointer. */ + } + else if ((op & 0xfc1fffff) == 0x38010000) + { /* addi rX, r1, 0x0 */ + fdata->frameless = 0; + framep = 1; + fdata->alloca_reg = (op & ~0x38010000) >> 21; + continue; + + } + else + { + break; + } } #if 0 @@ -379,24 +534,26 @@ skip_prologue (pc, fdata) We'd like to skip over it as well. Fortunately, xlc does some extra work before calling a function right after a prologue, thus we can single out such gcc2 behaviour. */ - - if ((op & 0xfc000001) == 0x48000001) { /* bl foo, an initializer function? */ - op = read_memory_integer (pc+4, 4); - if (op == 0x4def7b82) { /* cror 0xf, 0xf, 0xf (nop) */ + if ((op & 0xfc000001) == 0x48000001) + { /* bl foo, an initializer function? */ + op = read_memory_integer (pc + 4, 4); - /* check and see if we are in main. If so, skip over this initializer - function as well. */ + if (op == 0x4def7b82) + { /* cror 0xf, 0xf, 0xf (nop) */ - tmp = find_pc_misc_function (pc); - if (tmp >= 0 && STREQ (misc_function_vector [tmp].name, "main")) - return pc + 8; + /* check and see if we are in main. If so, skip over this initializer + function as well. */ + + tmp = find_pc_misc_function (pc); + if (tmp >= 0 && STREQ (misc_function_vector[tmp].name, "main")) + return pc + 8; + } } - } #endif /* 0 */ - - fdata->offset = - fdata->offset; + + fdata->offset = -fdata->offset; return pc; } @@ -408,12 +565,12 @@ skip_prologue (pc, fdata) /* The total size of dummy frame is 436, which is; - 32 gpr's - 128 bytes - 32 fpr's - 256 " - 7 the rest - 28 " - and 24 extra bytes for the callee's link area. The last 24 bytes - for the link area might not be necessary, since it will be taken - care of by push_arguments(). */ + 32 gpr's - 128 bytes + 32 fpr's - 256 " + 7 the rest - 28 " + and 24 extra bytes for the callee's link area. The last 24 bytes + for the link area might not be necessary, since it will be taken + care of by push_arguments(). */ #define DUMMY_FRAME_SIZE 436 @@ -430,7 +587,7 @@ extern int stop_stack_dummy; /* push a dummy frame into stack, save all register. Currently we are saving only gpr's and fpr's, which is not good enough! FIXMEmgo */ - + void push_dummy_frame () { @@ -443,7 +600,7 @@ push_dummy_frame () CORE_ADDR pc; /* Same thing, target byte order. */ char pc_targ[4]; - + /* Needed to figure out where to save the dummy link area. FIXME: There should be an easier way to do this, no? tiemann 9/9/95. */ struct rs6000_framedata fdata; @@ -452,23 +609,24 @@ push_dummy_frame () target_fetch_registers (-1); - if (dummy_frame_count >= dummy_frame_size) { - dummy_frame_size += DUMMY_FRAME_ADDR_SIZE; - if (dummy_frame_addr) - dummy_frame_addr = (CORE_ADDR*) xrealloc - (dummy_frame_addr, sizeof(CORE_ADDR) * (dummy_frame_size)); - else - dummy_frame_addr = (CORE_ADDR*) - xmalloc (sizeof(CORE_ADDR) * (dummy_frame_size)); - } - - sp = read_register(SP_REGNUM); - pc = read_register(PC_REGNUM); + if (dummy_frame_count >= dummy_frame_size) + { + dummy_frame_size += DUMMY_FRAME_ADDR_SIZE; + if (dummy_frame_addr) + dummy_frame_addr = (CORE_ADDR *) xrealloc + (dummy_frame_addr, sizeof (CORE_ADDR) * (dummy_frame_size)); + else + dummy_frame_addr = (CORE_ADDR *) + xmalloc (sizeof (CORE_ADDR) * (dummy_frame_size)); + } + + sp = read_register (SP_REGNUM); + pc = read_register (PC_REGNUM); store_address (pc_targ, 4, pc); - (void) skip_prologue (get_pc_function_start (pc) + FUNCTION_START_OFFSET, &fdata); + skip_prologue (get_pc_function_start (pc), &fdata); - dummy_frame_addr [dummy_frame_count++] = sp; + dummy_frame_addr[dummy_frame_count++] = sp; /* Be careful! If the stack pointer is not decremented first, then kernel thinks he is free to use the space underneath it. And kernel actually @@ -480,7 +638,7 @@ push_dummy_frame () This is a problem on the ppc simulator (which only grants one page (4096 bytes) by default. */ - write_register (SP_REGNUM, sp-DUMMY_FRAME_SIZE); + write_register (SP_REGNUM, sp - DUMMY_FRAME_SIZE); /* gdb relies on the state of current_frame. We'd better update it, otherwise things like do_registers_info() wouldn't work properly! */ @@ -489,33 +647,34 @@ push_dummy_frame () /* save program counter in link register's space. */ write_memory (sp + (fdata.lr_offset ? fdata.lr_offset : DEFAULT_LR_SAVE), - pc_targ, 4); + pc_targ, 4); /* save all floating point and general purpose registers here. */ /* fpr's, f0..f31 */ for (ii = 0; ii < 32; ++ii) - write_memory (sp-8-(ii*8), ®isters[REGISTER_BYTE (31-ii+FP0_REGNUM)], 8); + write_memory (sp - 8 - (ii * 8), ®isters[REGISTER_BYTE (31 - ii + FP0_REGNUM)], 8); /* gpr's r0..r31 */ - for (ii=1; ii <=32; ++ii) - write_memory (sp-256-(ii*4), ®isters[REGISTER_BYTE (32-ii)], 4); + for (ii = 1; ii <= 32; ++ii) + write_memory (sp - 256 - (ii * 4), ®isters[REGISTER_BYTE (32 - ii)], 4); /* so far, 32*2 + 32 words = 384 bytes have been written. 7 extra registers in our register set: pc, ps, cnd, lr, cnt, xer, mq */ - for (ii=1; ii <= (LAST_SP_REGNUM-FIRST_SP_REGNUM+1); ++ii) { - write_memory (sp-384-(ii*4), - ®isters[REGISTER_BYTE (FPLAST_REGNUM + ii)], 4); - } + for (ii = 1; ii <= (LAST_UISA_SP_REGNUM - FIRST_UISA_SP_REGNUM + 1); ++ii) + { + write_memory (sp - 384 - (ii * 4), + ®isters[REGISTER_BYTE (FPLAST_REGNUM + ii)], 4); + } /* Save sp or so called back chain right here. */ store_address (sp_targ, 4, sp); - write_memory (sp-DUMMY_FRAME_SIZE, sp_targ, 4); + write_memory (sp - DUMMY_FRAME_SIZE, sp_targ, 4); sp -= DUMMY_FRAME_SIZE; /* And finally, this is the back chain. */ - write_memory (sp+8, pc_targ, 4); + write_memory (sp + 8, pc_targ, 4); } @@ -532,42 +691,43 @@ push_dummy_frame () detect that was a dummy frame, we pop it back to its parent by using dummy frame stack (`dummy_frame_addr' array). -FIXME: This whole concept is broken. You should be able to detect -a dummy stack frame *on the user's stack itself*. When you do, -then you know the format of that stack frame -- including its -saved SP register! There should *not* be a separate stack in the -GDB process that keeps track of these dummy frames! -- gnu@cygnus.com Aug92 + FIXME: This whole concept is broken. You should be able to detect + a dummy stack frame *on the user's stack itself*. When you do, + then you know the format of that stack frame -- including its + saved SP register! There should *not* be a separate stack in the + GDB process that keeps track of these dummy frames! -- gnu@cygnus.com Aug92 */ - + static void pop_dummy_frame () { CORE_ADDR sp, pc; int ii; - sp = dummy_frame_addr [--dummy_frame_count]; + sp = dummy_frame_addr[--dummy_frame_count]; /* restore all fpr's. */ for (ii = 1; ii <= 32; ++ii) - read_memory (sp-(ii*8), ®isters[REGISTER_BYTE (32-ii+FP0_REGNUM)], 8); + read_memory (sp - (ii * 8), ®isters[REGISTER_BYTE (32 - ii + FP0_REGNUM)], 8); /* restore all gpr's */ - for (ii=1; ii <= 32; ++ii) { - read_memory (sp-256-(ii*4), ®isters[REGISTER_BYTE (32-ii)], 4); - } + for (ii = 1; ii <= 32; ++ii) + { + read_memory (sp - 256 - (ii * 4), ®isters[REGISTER_BYTE (32 - ii)], 4); + } /* restore the rest of the registers. */ - for (ii=1; ii <=(LAST_SP_REGNUM-FIRST_SP_REGNUM+1); ++ii) - read_memory (sp-384-(ii*4), - ®isters[REGISTER_BYTE (FPLAST_REGNUM + ii)], 4); + for (ii = 1; ii <= (LAST_UISA_SP_REGNUM - FIRST_UISA_SP_REGNUM + 1); ++ii) + read_memory (sp - 384 - (ii * 4), + ®isters[REGISTER_BYTE (FPLAST_REGNUM + ii)], 4); - read_memory (sp-(DUMMY_FRAME_SIZE-8), - ®isters [REGISTER_BYTE(PC_REGNUM)], 4); + read_memory (sp - (DUMMY_FRAME_SIZE - 8), + ®isters[REGISTER_BYTE (PC_REGNUM)], 4); /* when a dummy frame was being pushed, we had to decrement %sp first, in order to secure astack space. Thus, saved %sp (or %r1) value, is not the one we should restore. Change it with the one we need. */ - *(int*)®isters [REGISTER_BYTE(FP_REGNUM)] = sp; + memcpy (®isters[REGISTER_BYTE (FP_REGNUM)], (char *) &sp, sizeof (int)); /* Now we can restore all registers. */ @@ -582,7 +742,7 @@ pop_dummy_frame () void pop_frame () { - CORE_ADDR pc, lr, sp, prev_sp; /* %pc, %lr, %sp */ + CORE_ADDR pc, lr, sp, prev_sp; /* %pc, %lr, %sp */ struct rs6000_framedata fdata; struct frame_info *frame = get_current_frame (); int addr, ii; @@ -590,10 +750,21 @@ pop_frame () pc = read_pc (); sp = FRAME_FP (frame); - if (stop_stack_dummy && dummy_frame_count) { - pop_dummy_frame (); - return; - } + if (stop_stack_dummy) + { + if (USE_GENERIC_DUMMY_FRAMES) + { + generic_pop_dummy_frame (); + flush_cached_frames (); + return; + } + else + { + if (dummy_frame_count) + pop_dummy_frame (); + return; + } + } /* Make sure that all registers are valid. */ read_register_bytes (0, NULL, REGISTER_BYTES); @@ -602,7 +773,7 @@ pop_frame () still in the link register, otherwise walk the frames and retrieve the saved %pc value in the previous frame. */ - addr = get_pc_function_start (frame->pc) + FUNCTION_START_OFFSET; + addr = get_pc_function_start (frame->pc); (void) skip_prologue (addr, &fdata); if (fdata.frameless) @@ -618,19 +789,26 @@ pop_frame () write_register (PC_REGNUM, lr); /* reset register values if any was saved earlier. */ - addr = prev_sp - fdata.offset; if (fdata.saved_gpr != -1) - for (ii = fdata.saved_gpr; ii <= 31; ++ii) { - read_memory (addr, ®isters [REGISTER_BYTE (ii)], 4); - addr += 4; + { + addr = prev_sp + fdata.gpr_offset; + for (ii = fdata.saved_gpr; ii <= 31; ++ii) + { + read_memory (addr, ®isters[REGISTER_BYTE (ii)], 4); + addr += 4; + } } if (fdata.saved_fpr != -1) - for (ii = fdata.saved_fpr; ii <= 31; ++ii) { - read_memory (addr, ®isters [REGISTER_BYTE (ii+FP0_REGNUM)], 8); - addr += 8; - } + { + addr = prev_sp + fdata.fpr_offset; + for (ii = fdata.saved_fpr; ii <= 31; ++ii) + { + read_memory (addr, ®isters[REGISTER_BYTE (ii + FP0_REGNUM)], 8); + addr += 8; + } + } write_register (SP_REGNUM, prev_sp); target_store_registers (-1); @@ -661,23 +839,23 @@ rs6000_fix_call_dummy (dummyname, pc, fun, nargs, args, type, gcc_p) CORE_ADDR tocvalue; tocvalue = (*find_toc_address_hook) (fun); - ii = *(int*)((char*)dummyname + TOC_ADDR_OFFSET); + ii = *(int *) ((char *) dummyname + TOC_ADDR_OFFSET); ii = (ii & 0xffff0000) | (tocvalue >> 16); - *(int*)((char*)dummyname + TOC_ADDR_OFFSET) = ii; + *(int *) ((char *) dummyname + TOC_ADDR_OFFSET) = ii; - ii = *(int*)((char*)dummyname + TOC_ADDR_OFFSET+4); + ii = *(int *) ((char *) dummyname + TOC_ADDR_OFFSET + 4); ii = (ii & 0xffff0000) | (tocvalue & 0x0000ffff); - *(int*)((char*)dummyname + TOC_ADDR_OFFSET+4) = ii; + *(int *) ((char *) dummyname + TOC_ADDR_OFFSET + 4) = ii; } target_addr = fun; - ii = *(int*)((char*)dummyname + TARGET_ADDR_OFFSET); + ii = *(int *) ((char *) dummyname + TARGET_ADDR_OFFSET); ii = (ii & 0xffff0000) | (target_addr >> 16); - *(int*)((char*)dummyname + TARGET_ADDR_OFFSET) = ii; + *(int *) ((char *) dummyname + TARGET_ADDR_OFFSET) = ii; - ii = *(int*)((char*)dummyname + TARGET_ADDR_OFFSET+4); + ii = *(int *) ((char *) dummyname + TARGET_ADDR_OFFSET + 4); ii = (ii & 0xffff0000) | (target_addr & 0x0000ffff); - *(int*)((char*)dummyname + TARGET_ADDR_OFFSET+4) = ii; + *(int *) ((char *) dummyname + TARGET_ADDR_OFFSET + 4) = ii; } /* Pass the arguments in either registers, or in the stack. In RS6000, @@ -694,7 +872,7 @@ rs6000_fix_call_dummy (dummyname, pc, fun, nargs, args, type, gcc_p) starting from r4. */ CORE_ADDR -push_arguments (nargs, args, sp, struct_return, struct_addr) +rs6000_push_arguments (nargs, args, sp, struct_return, struct_addr) int nargs; value_ptr *args; CORE_ADDR sp; @@ -703,17 +881,21 @@ push_arguments (nargs, args, sp, struct_return, struct_addr) { int ii; int len = 0; - int argno; /* current argument number */ - int argbytes; /* current argument byte */ - char tmp_buffer [50]; - int f_argno = 0; /* current floating point argno */ + int argno; /* current argument number */ + int argbytes; /* current argument byte */ + char tmp_buffer[50]; + int f_argno = 0; /* current floating point argno */ + value_ptr arg = 0; struct type *type; CORE_ADDR saved_sp; - if ( dummy_frame_count <= 0) - printf_unfiltered ("FATAL ERROR -push_arguments()! frame not found!!\n"); + if (!USE_GENERIC_DUMMY_FRAMES) + { + if (dummy_frame_count <= 0) + printf_unfiltered ("FATAL ERROR -push_arguments()! frame not found!!\n"); + } /* The first eight words of ther arguments are passed in registers. Copy them appropriately. @@ -723,131 +905,176 @@ push_arguments (nargs, args, sp, struct_return, struct_addr) case we should advance one word and start from r4 register to copy parameters. */ - ii = struct_return ? 1 : 0; - - for (argno=0, argbytes=0; argno < nargs && ii<8; ++ii) { - - arg = args[argno]; - type = check_typedef (VALUE_TYPE (arg)); - len = TYPE_LENGTH (type); - - if (TYPE_CODE (type) == TYPE_CODE_FLT) { + ii = struct_return ? 1 : 0; + +/* + effectively indirect call... gcc does... + + return_val example( float, int); + + eabi: + float in fp0, int in r3 + offset of stack on overflow 8/16 + for varargs, must go by type. + power open: + float in r3&r4, int in r5 + offset of stack on overflow different + both: + return in r3 or f0. If no float, must study how gcc emulates floats; + pay attention to arg promotion. + User may have to cast\args to handle promotion correctly + since gdb won't know if prototype supplied or not. + */ - /* floating point arguments are passed in fpr's, as well as gpr's. - There are 13 fpr's reserved for passing parameters. At this point - there is no way we would run out of them. */ + for (argno = 0, argbytes = 0; argno < nargs && ii < 8; ++ii) + { - if (len > 8) - printf_unfiltered ( -"Fatal Error: a floating point parameter #%d with a size > 8 is found!\n", argno); + arg = args[argno]; + type = check_typedef (VALUE_TYPE (arg)); + len = TYPE_LENGTH (type); - memcpy (®isters[REGISTER_BYTE(FP0_REGNUM + 1 + f_argno)], VALUE_CONTENTS (arg), - len); - ++f_argno; - } + if (TYPE_CODE (type) == TYPE_CODE_FLT) + { - if (len > 4) { + /* floating point arguments are passed in fpr's, as well as gpr's. + There are 13 fpr's reserved for passing parameters. At this point + there is no way we would run out of them. */ - /* Argument takes more than one register. */ - while (argbytes < len) { + if (len > 8) + printf_unfiltered ( + "Fatal Error: a floating point parameter #%d with a size > 8 is found!\n", argno); - *(int*)®isters[REGISTER_BYTE(ii+3)] = 0; - memcpy (®isters[REGISTER_BYTE(ii+3)], - ((char*)VALUE_CONTENTS (arg))+argbytes, - (len - argbytes) > 4 ? 4 : len - argbytes); - ++ii, argbytes += 4; + memcpy (®isters[REGISTER_BYTE (FP0_REGNUM + 1 + f_argno)], + VALUE_CONTENTS (arg), + len); + ++f_argno; + } - if (ii >= 8) - goto ran_out_of_registers_for_arguments; - } - argbytes = 0; - --ii; - } - else { /* Argument can fit in one register. No problem. */ - *(int*)®isters[REGISTER_BYTE(ii+3)] = 0; - memcpy (®isters[REGISTER_BYTE(ii+3)], VALUE_CONTENTS (arg), len); + if (len > 4) + { + + /* Argument takes more than one register. */ + while (argbytes < len) + { + memset (®isters[REGISTER_BYTE (ii + 3)], 0, sizeof (int)); + memcpy (®isters[REGISTER_BYTE (ii + 3)], + ((char *) VALUE_CONTENTS (arg)) + argbytes, + (len - argbytes) > 4 ? 4 : len - argbytes); + ++ii, argbytes += 4; + + if (ii >= 8) + goto ran_out_of_registers_for_arguments; + } + argbytes = 0; + --ii; + } + else + { /* Argument can fit in one register. No problem. */ + memset (®isters[REGISTER_BYTE (ii + 3)], 0, sizeof (int)); + memcpy (®isters[REGISTER_BYTE (ii + 3)], VALUE_CONTENTS (arg), len); + } + ++argno; } - ++argno; - } ran_out_of_registers_for_arguments: - /* location for 8 parameters are always reserved. */ - sp -= 4 * 8; + if (USE_GENERIC_DUMMY_FRAMES) + { + saved_sp = read_sp (); + } + else + { + /* location for 8 parameters are always reserved. */ + sp -= 4 * 8; - /* another six words for back chain, TOC register, link register, etc. */ - sp -= 24; + /* another six words for back chain, TOC register, link register, etc. */ + sp -= 24; + } /* if there are more arguments, allocate space for them in the stack, then push them starting from the ninth one. */ - if ((argno < nargs) || argbytes) { - int space = 0, jj; + if ((argno < nargs) || argbytes) + { + int space = 0, jj; - if (argbytes) { - space += ((len - argbytes + 3) & -4); - jj = argno + 1; - } - else - jj = argno; + if (argbytes) + { + space += ((len - argbytes + 3) & -4); + jj = argno + 1; + } + else + jj = argno; - for (; jj < nargs; ++jj) { - value_ptr val = args[jj]; - space += ((TYPE_LENGTH (VALUE_TYPE (val))) + 3) & -4; - } + for (; jj < nargs; ++jj) + { + value_ptr val = args[jj]; + space += ((TYPE_LENGTH (VALUE_TYPE (val))) + 3) & -4; + } - /* add location required for the rest of the parameters */ - space = (space + 7) & -8; - sp -= space; + /* add location required for the rest of the parameters */ + space = (space + 7) & -8; + sp -= space; - /* This is another instance we need to be concerned about securing our - stack space. If we write anything underneath %sp (r1), we might conflict - with the kernel who thinks he is free to use this area. So, update %sp - first before doing anything else. */ + /* This is another instance we need to be concerned about securing our + stack space. If we write anything underneath %sp (r1), we might conflict + with the kernel who thinks he is free to use this area. So, update %sp + first before doing anything else. */ - write_register (SP_REGNUM, sp); + write_register (SP_REGNUM, sp); - /* if the last argument copied into the registers didn't fit there - completely, push the rest of it into stack. */ + /* if the last argument copied into the registers didn't fit there + completely, push the rest of it into stack. */ - if (argbytes) { - write_memory ( - sp+24+(ii*4), ((char*)VALUE_CONTENTS (arg))+argbytes, len - argbytes); - ++argno; - ii += ((len - argbytes + 3) & -4) / 4; - } + if (argbytes) + { + write_memory (sp + 24 + (ii * 4), + ((char *) VALUE_CONTENTS (arg)) + argbytes, + len - argbytes); + ++argno; + ii += ((len - argbytes + 3) & -4) / 4; + } - /* push the rest of the arguments into stack. */ - for (; argno < nargs; ++argno) { + /* push the rest of the arguments into stack. */ + for (; argno < nargs; ++argno) + { - arg = args[argno]; - type = check_typedef (VALUE_TYPE (arg)); - len = TYPE_LENGTH (type); + arg = args[argno]; + type = check_typedef (VALUE_TYPE (arg)); + len = TYPE_LENGTH (type); - /* float types should be passed in fpr's, as well as in the stack. */ - if (TYPE_CODE (type) == TYPE_CODE_FLT && f_argno < 13) { + /* float types should be passed in fpr's, as well as in the stack. */ + if (TYPE_CODE (type) == TYPE_CODE_FLT && f_argno < 13) + { - if (len > 8) - printf_unfiltered ( -"Fatal Error: a floating point parameter #%d with a size > 8 is found!\n", argno); + if (len > 8) + printf_unfiltered ( + "Fatal Error: a floating point parameter #%d with a size > 8 is found!\n", argno); - memcpy (®isters[REGISTER_BYTE(FP0_REGNUM + 1 + f_argno)], VALUE_CONTENTS (arg), - len); - ++f_argno; - } + memcpy (®isters[REGISTER_BYTE (FP0_REGNUM + 1 + f_argno)], + VALUE_CONTENTS (arg), + len); + ++f_argno; + } - write_memory (sp+24+(ii*4), (char *) VALUE_CONTENTS (arg), len); - ii += ((len + 3) & -4) / 4; + write_memory (sp + 24 + (ii * 4), (char *) VALUE_CONTENTS (arg), len); + ii += ((len + 3) & -4) / 4; + } } - } else /* Secure stack areas first, before doing anything else. */ write_register (SP_REGNUM, sp); - saved_sp = dummy_frame_addr [dummy_frame_count - 1]; - read_memory (saved_sp, tmp_buffer, 24); - write_memory (sp, tmp_buffer, 24); + if (!USE_GENERIC_DUMMY_FRAMES) + { + /* we want to copy 24 bytes of target's frame to dummy's frame, + then set back chain to point to new frame. */ + + saved_sp = dummy_frame_addr[dummy_frame_count - 1]; + read_memory (saved_sp, tmp_buffer, 24); + write_memory (sp, tmp_buffer, 24); + } /* set back chain properly */ store_address (tmp_buffer, 4, saved_sp); @@ -856,6 +1083,21 @@ ran_out_of_registers_for_arguments: target_store_registers (-1); return sp; } +#ifdef ELF_OBJECT_FORMAT + +/* Function: ppc_push_return_address (pc, sp) + Set up the return address for the inferior function call. */ + +CORE_ADDR +ppc_push_return_address (pc, sp) + CORE_ADDR pc; + CORE_ADDR sp; +{ + write_register (LR_REGNUM, CALL_DUMMY_ADDRESS ()); + return sp; +} + +#endif /* a given return value in `regbuf' with a type `valtype', extract and copy its value into `valbuf' */ @@ -868,31 +1110,37 @@ extract_return_value (valtype, regbuf, valbuf) { int offset = 0; - if (TYPE_CODE (valtype) == TYPE_CODE_FLT) { + if (TYPE_CODE (valtype) == TYPE_CODE_FLT) + { - double dd; float ff; - /* floats and doubles are returned in fpr1. fpr's have a size of 8 bytes. - We need to truncate the return value into float size (4 byte) if - necessary. */ + double dd; + float ff; + /* floats and doubles are returned in fpr1. fpr's have a size of 8 bytes. + We need to truncate the return value into float size (4 byte) if + necessary. */ - if (TYPE_LENGTH (valtype) > 4) /* this is a double */ - memcpy (valbuf, ®buf[REGISTER_BYTE (FP0_REGNUM + 1)], - TYPE_LENGTH (valtype)); - else { /* float */ - memcpy (&dd, ®buf[REGISTER_BYTE (FP0_REGNUM + 1)], 8); - ff = (float)dd; - memcpy (valbuf, &ff, sizeof(float)); + if (TYPE_LENGTH (valtype) > 4) /* this is a double */ + memcpy (valbuf, + ®buf[REGISTER_BYTE (FP0_REGNUM + 1)], + TYPE_LENGTH (valtype)); + else + { /* float */ + memcpy (&dd, ®buf[REGISTER_BYTE (FP0_REGNUM + 1)], 8); + ff = (float) dd; + memcpy (valbuf, &ff, sizeof (float)); + } + } + else + { + /* return value is copied starting from r3. */ + if (TARGET_BYTE_ORDER == BIG_ENDIAN + && TYPE_LENGTH (valtype) < REGISTER_RAW_SIZE (3)) + offset = REGISTER_RAW_SIZE (3) - TYPE_LENGTH (valtype); + + memcpy (valbuf, + regbuf + REGISTER_BYTE (3) + offset, + TYPE_LENGTH (valtype)); } - } - else { - /* return value is copied starting from r3. */ - if (TARGET_BYTE_ORDER == BIG_ENDIAN - && TYPE_LENGTH (valtype) < REGISTER_RAW_SIZE (3)) - offset = REGISTER_RAW_SIZE (3) - TYPE_LENGTH (valtype); - - memcpy (valbuf, regbuf + REGISTER_BYTE (3) + offset, - TYPE_LENGTH (valtype)); - } } @@ -919,15 +1167,16 @@ skip_trampoline_code (pc) register unsigned int ii, op; CORE_ADDR solib_target_pc; - static unsigned trampoline_code[] = { - 0x800b0000, /* l r0,0x0(r11) */ - 0x90410014, /* st r2,0x14(r1) */ - 0x7c0903a6, /* mtctr r0 */ - 0x804b0004, /* l r2,0x4(r11) */ - 0x816b0008, /* l r11,0x8(r11) */ - 0x4e800420, /* bctr */ - 0x4e800020, /* br */ - 0 + static unsigned trampoline_code[] = + { + 0x800b0000, /* l r0,0x0(r11) */ + 0x90410014, /* st r2,0x14(r1) */ + 0x7c0903a6, /* mtctr r0 */ + 0x804b0004, /* l r2,0x4(r11) */ + 0x816b0008, /* l r11,0x8(r11) */ + 0x4e800420, /* bctr */ + 0x4e800020, /* br */ + 0 }; /* If pc is in a shared library trampoline, return its target. */ @@ -935,13 +1184,14 @@ skip_trampoline_code (pc) if (solib_target_pc) return solib_target_pc; - for (ii=0; trampoline_code[ii]; ++ii) { - op = read_memory_integer (pc + (ii*4), 4); - if (op != trampoline_code [ii]) - return 0; - } - ii = read_register (11); /* r11 holds destination addr */ - pc = read_memory_integer (ii, 4); /* (r11) value */ + for (ii = 0; trampoline_code[ii]; ++ii) + { + op = read_memory_integer (pc + (ii * 4), 4); + if (op != trampoline_code[ii]) + return 0; + } + ii = read_register (11); /* r11 holds destination addr */ + pc = read_memory_integer (ii, 4); /* (r11) value */ return pc; } @@ -958,7 +1208,7 @@ frameless_function_invocation (fi) or if the function was interrupted by a signal. */ if (fi->next != NULL && !fi->next->signal_handler_caller) return 0; - + func_start = get_pc_function_start (fi->pc); /* If we failed to find the start of the function, it is a mistake @@ -967,16 +1217,15 @@ frameless_function_invocation (fi) if (!func_start) { /* A frame with a zero PC is usually created by dereferencing a NULL - function pointer, normally causing an immediate core dump of the - inferior. Mark function as frameless, as the inferior has no chance - of setting up a stack frame. */ + function pointer, normally causing an immediate core dump of the + inferior. Mark function as frameless, as the inferior has no chance + of setting up a stack frame. */ if (fi->pc == 0) return 1; else return 0; } - func_start += FUNCTION_START_OFFSET; (void) skip_prologue (func_start, &fdata); return fdata.frameless; } @@ -993,7 +1242,13 @@ frame_saved_pc (fi) if (fi->signal_handler_caller) return read_memory_integer (fi->frame + SIG_FRAME_PC_OFFSET, 4); - func_start = get_pc_function_start (fi->pc) + FUNCTION_START_OFFSET; + if (USE_GENERIC_DUMMY_FRAMES) + { + if (PC_IN_CALL_DUMMY (fi->pc, fi->frame, fi->frame)) + return generic_read_register_dummy (fi->pc, fi->frame, PC_REGNUM); + } + + func_start = get_pc_function_start (fi->pc); /* If we failed to find the start of the function, it is a mistake to inspect the instructions. */ @@ -1022,69 +1277,82 @@ frame_saved_pc (fi) in which case the framedata are read. */ static void -frame_get_cache_fsr (fi, fdatap) +frame_get_saved_regs (fi, fdatap) struct frame_info *fi; struct rs6000_framedata *fdatap; { int ii; - CORE_ADDR frame_addr; + CORE_ADDR frame_addr; struct rs6000_framedata work_fdata; - if (fi->cache_fsr) + if (fi->saved_regs) return; - - if (fdatap == NULL) { - fdatap = &work_fdata; - (void) skip_prologue (get_pc_function_start (fi->pc), fdatap); - } - fi->cache_fsr = (struct frame_saved_regs *) - obstack_alloc (&frame_cache_obstack, sizeof (struct frame_saved_regs)); - memset (fi->cache_fsr, '\0', sizeof (struct frame_saved_regs)); + if (fdatap == NULL) + { + fdatap = &work_fdata; + (void) skip_prologue (get_pc_function_start (fi->pc), fdatap); + } + + frame_saved_regs_zalloc (fi); + + /* If there were any saved registers, figure out parent's stack + pointer. */ + /* The following is true only if the frame doesn't have a call to + alloca(), FIXME. */ - if (fi->prev && fi->prev->frame) + if (fdatap->saved_fpr == 0 && fdatap->saved_gpr == 0 + && fdatap->lr_offset == 0 && fdatap->cr_offset == 0) + frame_addr = 0; + else if (fi->prev && fi->prev->frame) frame_addr = fi->prev->frame; else frame_addr = read_memory_integer (fi->frame, 4); - + /* if != -1, fdatap->saved_fpr is the smallest number of saved_fpr. All fpr's from saved_fpr to fp31 are saved. */ - if (fdatap->saved_fpr >= 0) { - int fpr_offset = frame_addr + fdatap->fpr_offset; - for (ii = fdatap->saved_fpr; ii < 32; ii++) { - fi->cache_fsr->regs [FP0_REGNUM + ii] = fpr_offset; - fpr_offset += 8; + if (fdatap->saved_fpr >= 0) + { + int i; + int fpr_offset = frame_addr + fdatap->fpr_offset; + for (i = fdatap->saved_fpr; i < 32; i++) + { + fi->saved_regs[FP0_REGNUM + i] = fpr_offset; + fpr_offset += 8; + } } - } /* if != -1, fdatap->saved_gpr is the smallest number of saved_gpr. All gpr's from saved_gpr to gpr31 are saved. */ - - if (fdatap->saved_gpr >= 0) { - int gpr_offset = frame_addr + fdatap->gpr_offset; - for (ii = fdatap->saved_gpr; ii < 32; ii++) { - fi->cache_fsr->regs [ii] = gpr_offset; - gpr_offset += 4; + + if (fdatap->saved_gpr >= 0) + { + int i; + int gpr_offset = frame_addr + fdatap->gpr_offset; + for (i = fdatap->saved_gpr; i < 32; i++) + { + fi->saved_regs[i] = gpr_offset; + gpr_offset += 4; + } } - } /* If != 0, fdatap->cr_offset is the offset from the frame that holds the CR. */ if (fdatap->cr_offset != 0) - fi->cache_fsr->regs [CR_REGNUM] = frame_addr + fdatap->cr_offset; + fi->saved_regs[CR_REGNUM] = frame_addr + fdatap->cr_offset; /* If != 0, fdatap->lr_offset is the offset from the frame that holds the LR. */ if (fdatap->lr_offset != 0) - fi->cache_fsr->regs [LR_REGNUM] = frame_addr + fdatap->lr_offset; + fi->saved_regs[LR_REGNUM] = frame_addr + fdatap->lr_offset; } /* Return the address of a frame. This is the inital %sp value when the frame was first allocated. For functions calling alloca(), it might be saved in an alloca register. */ -CORE_ADDR +static CORE_ADDR frame_initial_stack_address (fi) struct frame_info *fi; { @@ -1095,8 +1363,8 @@ frame_initial_stack_address (fi) /* if the initial stack pointer (frame address) of this frame is known, just return it. */ - if (fi->initial_sp) - return fi->initial_sp; + if (fi->extra_info->initial_sp) + return fi->extra_info->initial_sp; /* find out if this function is using an alloca register.. */ @@ -1104,49 +1372,53 @@ frame_initial_stack_address (fi) /* if saved registers of this frame are not known yet, read and cache them. */ - if (!fi->cache_fsr) - frame_get_cache_fsr (fi, &fdata); + if (!fi->saved_regs) + frame_get_saved_regs (fi, &fdata); /* If no alloca register used, then fi->frame is the value of the %sp for this frame, and it is good enough. */ - if (fdata.alloca_reg < 0) { - fi->initial_sp = fi->frame; - return fi->initial_sp; - } + if (fdata.alloca_reg < 0) + { + fi->extra_info->initial_sp = fi->frame; + return fi->extra_info->initial_sp; + } /* This function has an alloca register. If this is the top-most frame (with the lowest address), the value in alloca register is good. */ if (!fi->next) - return fi->initial_sp = read_register (fdata.alloca_reg); + return fi->extra_info->initial_sp = read_register (fdata.alloca_reg); /* Otherwise, this is a caller frame. Callee has usually already saved registers, but there are exceptions (such as when the callee has no parameters). Find the address in which caller's alloca register is saved. */ - for (callee_fi = fi->next; callee_fi; callee_fi = callee_fi->next) { + for (callee_fi = fi->next; callee_fi; callee_fi = callee_fi->next) + { - if (!callee_fi->cache_fsr) - frame_get_cache_fsr (callee_fi, NULL); + if (!callee_fi->saved_regs) + frame_get_saved_regs (callee_fi, NULL); - /* this is the address in which alloca register is saved. */ + /* this is the address in which alloca register is saved. */ - tmpaddr = callee_fi->cache_fsr->regs [fdata.alloca_reg]; - if (tmpaddr) { - fi->initial_sp = read_memory_integer (tmpaddr, 4); - return fi->initial_sp; - } + tmpaddr = callee_fi->saved_regs[fdata.alloca_reg]; + if (tmpaddr) + { + fi->extra_info->initial_sp = read_memory_integer (tmpaddr, 4); + return fi->extra_info->initial_sp; + } - /* Go look into deeper levels of the frame chain to see if any one of - the callees has saved alloca register. */ - } + /* Go look into deeper levels of the frame chain to see if any one of + the callees has saved alloca register. */ + } /* If alloca register was not saved, by the callee (or any of its callees) then the value in the register is still good. */ - return fi->initial_sp = read_register (fdata.alloca_reg); + fi->extra_info->initial_sp = read_register (fdata.alloca_reg); + return fi->extra_info->initial_sp; } CORE_ADDR @@ -1154,8 +1426,17 @@ rs6000_frame_chain (thisframe) struct frame_info *thisframe; { CORE_ADDR fp; - if (inside_entry_file ((thisframe)->pc)) + + if (USE_GENERIC_DUMMY_FRAMES) + { + if (PC_IN_CALL_DUMMY (thisframe->pc, thisframe->frame, thisframe->frame)) + return thisframe->frame; /* dummy frame same as caller's frame */ + } + + if (inside_entry_file (thisframe->pc) || + thisframe->pc == entry_point_address ()) return 0; + if (thisframe->signal_handler_caller) fp = read_memory_integer (thisframe->frame + SIG_FRAME_FP_OFFSET, 4); else if (thisframe->next != NULL @@ -1167,6 +1448,17 @@ rs6000_frame_chain (thisframe) else fp = read_memory_integer ((thisframe)->frame, 4); + if (USE_GENERIC_DUMMY_FRAMES) + { + CORE_ADDR fpp, lr; + + lr = read_register (LR_REGNUM); + if (lr == entry_point_address ()) + if (fp != 0 && (fpp = read_memory_integer (fp, 4)) != 0) + if (PC_IN_CALL_DUMMY (lr, fpp, fpp)) + return fpp; + } + return fp; } @@ -1198,6 +1490,351 @@ gdb_print_insn_powerpc (memaddr, info) return print_insn_little_powerpc (memaddr, info); } #endif + + +/* Handling the various PowerPC/RS6000 variants. */ + + +/* The arrays here called register_names_MUMBLE hold names that + the rs6000_register_name function returns. + + For each family of PPC variants, I've tried to isolate out the + common registers and put them up front, so that as long as you get + the general family right, GDB will correctly identify the registers + common to that family. The common register sets are: + + For the 60x family: hid0 hid1 iabr dabr pir + + For the 505 and 860 family: eie eid nri + + For the 403 and 403GC: icdbdr esr dear evpr cdbcr tsr tcr pit tbhi + tblo srr2 srr3 dbsr dbcr iac1 iac2 dac1 dac2 dccr iccr pbl1 + pbu1 pbl2 pbu2 + + Most of these register groups aren't anything formal. I arrived at + them by looking at the registers that occurred in more than one + processor. */ + +/* UISA register names common across all architectures, including POWER. */ + +#define COMMON_UISA_REG_NAMES \ + /* 0 */ "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7", \ + /* 8 */ "r8", "r9", "r10","r11","r12","r13","r14","r15", \ + /* 16 */ "r16","r17","r18","r19","r20","r21","r22","r23", \ + /* 24 */ "r24","r25","r26","r27","r28","r29","r30","r31", \ + /* 32 */ "f0", "f1", "f2", "f3", "f4", "f5", "f6", "f7", \ + /* 40 */ "f8", "f9", "f10","f11","f12","f13","f14","f15", \ + /* 48 */ "f16","f17","f18","f19","f20","f21","f22","f23", \ + /* 56 */ "f24","f25","f26","f27","f28","f29","f30","f31", \ + /* 64 */ "pc", "ps" + +/* UISA-level SPR names for PowerPC. */ +#define PPC_UISA_SPR_NAMES \ + /* 66 */ "cr", "lr", "ctr", "xer", "" + +/* Segment register names, for PowerPC. */ +#define PPC_SEGMENT_REG_NAMES \ + /* 71 */ "sr0", "sr1", "sr2", "sr3", "sr4", "sr5", "sr6", "sr7", \ + /* 79 */ "sr8", "sr9", "sr10", "sr11", "sr12", "sr13", "sr14", "sr15" + +/* OEA SPR names for 32-bit PowerPC implementations. + The blank space is for "asr", which is only present on 64-bit + implementations. */ +#define PPC_32_OEA_SPR_NAMES \ + /* 87 */ "pvr", \ + /* 88 */ "ibat0u", "ibat0l", "ibat1u", "ibat1l", \ + /* 92 */ "ibat2u", "ibat2l", "ibat3u", "ibat3l", \ + /* 96 */ "dbat0u", "dbat0l", "dbat1u", "dbat1l", \ + /* 100 */ "dbat2u", "dbat2l", "dbat3u", "dbat3l", \ + /* 104 */ "sdr1", "", "dar", "dsisr", "sprg0", "sprg1", "sprg2", "sprg3",\ + /* 112 */ "srr0", "srr1", "tbl", "tbu", "dec", "dabr", "ear" + +/* For the RS6000, we only cover user-level SPR's. */ +char *register_names_rs6000[] = +{ + COMMON_UISA_REG_NAMES, + /* 66 */ "cnd", "lr", "cnt", "xer", "mq" +}; + +/* a UISA-only view of the PowerPC. */ +char *register_names_uisa[] = +{ + COMMON_UISA_REG_NAMES, + PPC_UISA_SPR_NAMES +}; + +char *register_names_403[] = +{ + COMMON_UISA_REG_NAMES, + PPC_UISA_SPR_NAMES, + PPC_SEGMENT_REG_NAMES, + PPC_32_OEA_SPR_NAMES, + /* 119 */ "icdbdr", "esr", "dear", "evpr", "cdbcr", "tsr", "tcr", "pit", + /* 127 */ "tbhi", "tblo", "srr2", "srr3", "dbsr", "dbcr", "iac1", "iac2", + /* 135 */ "dac1", "dac2", "dccr", "iccr", "pbl1", "pbu1", "pbl2", "pbu2" +}; + +char *register_names_403GC[] = +{ + COMMON_UISA_REG_NAMES, + PPC_UISA_SPR_NAMES, + PPC_SEGMENT_REG_NAMES, + PPC_32_OEA_SPR_NAMES, + /* 119 */ "icdbdr", "esr", "dear", "evpr", "cdbcr", "tsr", "tcr", "pit", + /* 127 */ "tbhi", "tblo", "srr2", "srr3", "dbsr", "dbcr", "iac1", "iac2", + /* 135 */ "dac1", "dac2", "dccr", "iccr", "pbl1", "pbu1", "pbl2", "pbu2", + /* 143 */ "zpr", "pid", "sgr", "dcwr", "tbhu", "tblu" +}; + +char *register_names_505[] = +{ + COMMON_UISA_REG_NAMES, + PPC_UISA_SPR_NAMES, + PPC_SEGMENT_REG_NAMES, + PPC_32_OEA_SPR_NAMES, + /* 119 */ "eie", "eid", "nri" +}; + +char *register_names_860[] = +{ + COMMON_UISA_REG_NAMES, + PPC_UISA_SPR_NAMES, + PPC_SEGMENT_REG_NAMES, + PPC_32_OEA_SPR_NAMES, + /* 119 */ "eie", "eid", "nri", "cmpa", "cmpb", "cmpc", "cmpd", "icr", + /* 127 */ "der", "counta", "countb", "cmpe", "cmpf", "cmpg", "cmph", + /* 134 */ "lctrl1", "lctrl2", "ictrl", "bar", "ic_cst", "ic_adr", "ic_dat", + /* 141 */ "dc_cst", "dc_adr", "dc_dat", "dpdr", "dpir", "immr", "mi_ctr", + /* 148 */ "mi_ap", "mi_epn", "mi_twc", "mi_rpn", "md_ctr", "m_casid", + /* 154 */ "md_ap", "md_epn", "md_twb", "md_twc", "md_rpn", "m_tw", + /* 160 */ "mi_dbcam", "mi_dbram0", "mi_dbram1", "md_dbcam", "md_dbram0", + /* 165 */ "md_dbram1" +}; + +/* Note that the 601 has different register numbers for reading and + writing RTCU and RTCL. However, how one reads and writes a + register is the stub's problem. */ +char *register_names_601[] = +{ + COMMON_UISA_REG_NAMES, + PPC_UISA_SPR_NAMES, + PPC_SEGMENT_REG_NAMES, + PPC_32_OEA_SPR_NAMES, + /* 119 */ "hid0", "hid1", "iabr", "dabr", "pir", "mq", "rtcu", + /* 126 */ "rtcl" +}; + +char *register_names_602[] = +{ + COMMON_UISA_REG_NAMES, + PPC_UISA_SPR_NAMES, + PPC_SEGMENT_REG_NAMES, + PPC_32_OEA_SPR_NAMES, + /* 119 */ "hid0", "hid1", "iabr", "", "", "tcr", "ibr", "esassr", "sebr", + /* 128 */ "ser", "sp", "lt" +}; + +char *register_names_603[] = +{ + COMMON_UISA_REG_NAMES, + PPC_UISA_SPR_NAMES, + PPC_SEGMENT_REG_NAMES, + PPC_32_OEA_SPR_NAMES, + /* 119 */ "hid0", "hid1", "iabr", "", "", "dmiss", "dcmp", "hash1", + /* 127 */ "hash2", "imiss", "icmp", "rpa" +}; + +char *register_names_604[] = +{ + COMMON_UISA_REG_NAMES, + PPC_UISA_SPR_NAMES, + PPC_SEGMENT_REG_NAMES, + PPC_32_OEA_SPR_NAMES, + /* 119 */ "hid0", "hid1", "iabr", "dabr", "pir", "mmcr0", "pmc1", "pmc2", + /* 127 */ "sia", "sda" +}; + +char *register_names_750[] = +{ + COMMON_UISA_REG_NAMES, + PPC_UISA_SPR_NAMES, + PPC_SEGMENT_REG_NAMES, + PPC_32_OEA_SPR_NAMES, + /* 119 */ "hid0", "hid1", "iabr", "dabr", "", "ummcr0", "upmc1", "upmc2", + /* 127 */ "usia", "ummcr1", "upmc3", "upmc4", "mmcr0", "pmc1", "pmc2", + /* 134 */ "sia", "mmcr1", "pmc3", "pmc4", "l2cr", "ictc", "thrm1", "thrm2", + /* 142 */ "thrm3" +}; + + +/* Information about a particular processor variant. */ +struct variant + { + /* Name of this variant. */ + char *name; + + /* English description of the variant. */ + char *description; + + /* Table of register names; registers[R] is the name of the register + number R. */ + int num_registers; + char **registers; + }; + +#define num_registers(list) (sizeof (list) / sizeof((list)[0])) + + +/* Information in this table comes from the following web sites: + IBM: http://www.chips.ibm.com:80/products/embedded/ + Motorola: http://www.mot.com/SPS/PowerPC/ + + I'm sure I've got some of the variant descriptions not quite right. + Please report any inaccuracies you find to GDB's maintainer. + + If you add entries to this table, please be sure to allow the new + value as an argument to the --with-cpu flag, in configure.in. */ + +static struct variant + variants[] = +{ + {"ppc-uisa", "PowerPC UISA - a PPC processor as viewed by user-level code", + num_registers (register_names_uisa), register_names_uisa}, + {"rs6000", "IBM RS6000 (\"POWER\") architecture, user-level view", + num_registers (register_names_rs6000), register_names_rs6000}, + {"403", "IBM PowerPC 403", + num_registers (register_names_403), register_names_403}, + {"403GC", "IBM PowerPC 403GC", + num_registers (register_names_403GC), register_names_403GC}, + {"505", "Motorola PowerPC 505", + num_registers (register_names_505), register_names_505}, + {"860", "Motorola PowerPC 860 or 850", + num_registers (register_names_860), register_names_860}, + {"601", "Motorola PowerPC 601", + num_registers (register_names_601), register_names_601}, + {"602", "Motorola PowerPC 602", + num_registers (register_names_602), register_names_602}, + {"603", "Motorola/IBM PowerPC 603 or 603e", + num_registers (register_names_603), register_names_603}, + {"604", "Motorola PowerPC 604 or 604e", + num_registers (register_names_604), register_names_604}, + {"750", "Motorola/IBM PowerPC 750 or 740", + num_registers (register_names_750), register_names_750}, + {0, 0, 0, 0} +}; + + +static struct variant *current_variant; + +char * +rs6000_register_name (int i) +{ + if (i < 0 || i >= NUM_REGS) + error ("GDB bug: rs6000-tdep.c (rs6000_register_name): strange register number"); + + return ((i < current_variant->num_registers) + ? current_variant->registers[i] + : ""); +} + + +static void +install_variant (struct variant *v) +{ + current_variant = v; +} + + +/* Look up the variant named NAME in the `variants' table. Return a + pointer to the struct variant, or null if we couldn't find it. */ +static struct variant * +find_variant_by_name (char *name) +{ + int i; + + for (i = 0; variants[i].name; i++) + if (!strcmp (name, variants[i].name)) + return &variants[i]; + + return 0; +} + + +/* Install the PPC/RS6000 variant named NAME in the `variants' table. + Return zero if we installed it successfully, or a non-zero value if + we couldn't do it. + + This might be useful to code outside this file, which doesn't want + to depend on the exact indices of the entries in the `variants' + table. Just make it non-static if you want that. */ +static int +install_variant_by_name (char *name) +{ + struct variant *v = find_variant_by_name (name); + + if (v) + { + install_variant (v); + return 0; + } + else + return 1; +} + + +static void +list_variants () +{ + int i; + + printf_filtered ("GDB knows about the following PowerPC and RS6000 variants:\n"); + + for (i = 0; variants[i].name; i++) + printf_filtered (" %-8s %s\n", + variants[i].name, variants[i].description); +} + + +static void +show_current_variant () +{ + printf_filtered ("PowerPC / RS6000 processor variant is set to `%s'.\n", + current_variant->name); +} + + +static void +set_processor (char *arg, int from_tty) +{ + int i; + + if (!arg || arg[0] == '\0') + { + list_variants (); + return; + } + + if (install_variant_by_name (arg)) + { + error_begin (); + fprintf_filtered (gdb_stderr, + "`%s' is not a recognized PowerPC / RS6000 variant name.\n\n", arg); + list_variants (); + return_to_top_level (RETURN_ERROR); + } + + show_current_variant (); +} + +static void +show_processor (char *arg, int from_tty) +{ + show_current_variant (); +} + + + +/* Initialization code. */ void _initialize_rs6000_tdep () @@ -1208,4 +1845,37 @@ _initialize_rs6000_tdep () #else tm_print_insn = print_insn_rs6000; #endif + + /* I don't think we should use the set/show command arrangement + here, because the way that's implemented makes it hard to do the + error checking we want in a reasonable way. So we just add them + as two separate commands. */ + add_cmd ("processor", class_support, set_processor, + "`set processor NAME' sets the PowerPC/RS6000 variant to NAME.\n\ +If you set this, GDB will know about the special-purpose registers that are\n\ +available on the given variant.\n\ +Type `set processor' alone for a list of recognized variant names.", + &setlist); + add_cmd ("processor", class_support, show_processor, + "Show the variant of the PowerPC or RS6000 processor in use.\n\ +Use `set processor' to change this.", + &showlist); + + /* Set the current PPC processor variant. */ + { + int status = 1; + +#ifdef TARGET_CPU_DEFAULT + status = install_variant_by_name (TARGET_CPU_DEFAULT); +#endif + + if (status) + { +#ifdef GDB_TARGET_POWERPC + install_variant_by_name ("ppc-uisa"); +#else + install_variant_by_name ("rs6000"); +#endif + } + } }