/* RTL manipulation functions exported by Pointer Bounds Checker. Copyright (C) 2014-2015 Free Software Foundation, Inc. Contributed by Ilya Enkovich (ilya.enkovich@intel.com) This file is part of GCC. GCC 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 3, or (at your option) any later version. GCC 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 GCC; see the file COPYING3. If not see . */ #include "config.h" #include "system.h" #include "coretypes.h" #include "backend.h" #include "tree.h" #include "gimple.h" #include "rtl.h" #include "flags.h" #include "alias.h" #include "insn-config.h" #include "expmed.h" #include "dojump.h" #include "explow.h" #include "calls.h" #include "emit-rtl.h" #include "varasm.h" #include "stmt.h" #include "expr.h" #include "target.h" #include "internal-fn.h" #include "fold-const.h" #include "rtl-chkp.h" #include "tree-chkp.h" static hash_map *chkp_rtx_bounds_map; /* Get bounds rtx associated with NODE via chkp_set_rtl_bounds call. */ rtx chkp_get_rtl_bounds (tree node) { rtx *slot; if (!chkp_rtx_bounds_map) return NULL_RTX; slot = chkp_rtx_bounds_map->get (node); return slot ? *slot : NULL_RTX; } /* Associate bounds rtx VAL with NODE. */ void chkp_set_rtl_bounds (tree node, rtx val) { if (!chkp_rtx_bounds_map) chkp_rtx_bounds_map = new hash_map; chkp_rtx_bounds_map->put (node, val); } /* Reset all bounds stored via chkp_set_rtl_bounds. */ void chkp_reset_rtl_bounds () { if (!chkp_rtx_bounds_map) return; delete chkp_rtx_bounds_map; chkp_rtx_bounds_map = NULL; } /* Split SLOT identifying slot for function value or argument into two parts SLOT_VAL and SLOT_BND. First is the slot for regular value and the other one is for bounds. */ void chkp_split_slot (rtx slot, rtx *slot_val, rtx *slot_bnd) { int i; int val_num = 0; int bnd_num = 0; rtx *val_tmps; rtx *bnd_tmps; *slot_bnd = 0; if (!slot || GET_CODE (slot) != PARALLEL) { *slot_val = slot; return; } val_tmps = XALLOCAVEC (rtx, XVECLEN (slot, 0)); bnd_tmps = XALLOCAVEC (rtx, XVECLEN (slot, 0)); for (i = 0; i < XVECLEN (slot, 0); i++) { rtx elem = XVECEXP (slot, 0, i); rtx reg = GET_CODE (elem) == EXPR_LIST ? XEXP (elem, 0) : elem; if (!reg) continue; if (POINTER_BOUNDS_MODE_P (GET_MODE (reg)) || CONST_INT_P (reg)) bnd_tmps[bnd_num++] = elem; else val_tmps[val_num++] = elem; } gcc_assert (val_num); if (!bnd_num) { *slot_val = slot; return; } if ((GET_CODE (val_tmps[0]) == EXPR_LIST) || (val_num > 1)) *slot_val = gen_rtx_PARALLEL (GET_MODE (slot), gen_rtvec_v (val_num, val_tmps)); else *slot_val = val_tmps[0]; if ((GET_CODE (bnd_tmps[0]) == EXPR_LIST) || (bnd_num > 1)) *slot_bnd = gen_rtx_PARALLEL (VOIDmode, gen_rtvec_v (bnd_num, bnd_tmps)); else *slot_bnd = bnd_tmps[0]; } /* Join previously splitted to VAL and BND rtx for function value or argument and return it. */ rtx chkp_join_splitted_slot (rtx val, rtx bnd) { rtx res; int i, n = 0; if (!bnd) return val; if (GET_CODE (val) == PARALLEL) n += XVECLEN (val, 0); else n++; if (GET_CODE (bnd) == PARALLEL) n += XVECLEN (bnd, 0); else n++; res = gen_rtx_PARALLEL (GET_MODE (val), rtvec_alloc (n)); n = 0; if (GET_CODE (val) == PARALLEL) for (i = 0; i < XVECLEN (val, 0); i++) XVECEXP (res, 0, n++) = XVECEXP (val, 0, i); else XVECEXP (res, 0, n++) = val; if (GET_CODE (bnd) == PARALLEL) for (i = 0; i < XVECLEN (bnd, 0); i++) XVECEXP (res, 0, n++) = XVECEXP (bnd, 0, i); else XVECEXP (res, 0, n++) = bnd; return res; } /* If PAR is PARALLEL holding registers then transform it into PARALLEL holding EXPR_LISTs of those regs and zero constant (similar to how function value on multiple registers looks like). */ void chkp_put_regs_to_expr_list (rtx par) { int n; if (GET_CODE (par) != PARALLEL || GET_CODE (XVECEXP (par, 0, 0)) == EXPR_LIST) return; for (n = 0; n < XVECLEN (par, 0); n++) XVECEXP (par, 0, n) = gen_rtx_EXPR_LIST (VOIDmode, XVECEXP (par, 0, n), const0_rtx); } /* Search rtx PAR describing function return value for an item related to value at offset OFFS and return it. Return NULL if item was not found. */ rtx chkp_get_value_with_offs (rtx par, rtx offs) { int n; gcc_assert (GET_CODE (par) == PARALLEL); for (n = 0; n < XVECLEN (par, 0); n++) { rtx par_offs = XEXP (XVECEXP (par, 0, n), 1); if (INTVAL (offs) == INTVAL (par_offs)) return XEXP (XVECEXP (par, 0, n), 0); } return NULL; } /* Emit instructions to store BOUNDS for pointer VALUE stored in MEM. Function is used by expand to pass bounds for args passed on stack. */ void chkp_emit_bounds_store (rtx bounds, rtx value, rtx mem) { gcc_assert (MEM_P (mem)); if (REG_P (bounds) || CONST_INT_P (bounds)) { rtx ptr; if (REG_P (value)) ptr = value; else { rtx slot = adjust_address (value, Pmode, 0); ptr = gen_reg_rtx (Pmode); emit_move_insn (ptr, slot); } if (CONST_INT_P (bounds)) bounds = targetm.calls.load_bounds_for_arg (value, ptr, bounds); targetm.calls.store_bounds_for_arg (ptr, mem, bounds, NULL); } else { int i; gcc_assert (GET_CODE (bounds) == PARALLEL); gcc_assert (GET_CODE (value) == PARALLEL || MEM_P (value) || REG_P (value)); for (i = 0; i < XVECLEN (bounds, 0); i++) { rtx reg = XEXP (XVECEXP (bounds, 0, i), 0); rtx offs = XEXP (XVECEXP (bounds, 0, i), 1); rtx slot = adjust_address (mem, Pmode, INTVAL (offs)); rtx ptr; if (GET_CODE (value) == PARALLEL) ptr = chkp_get_value_with_offs (value, offs); else if (MEM_P (value)) { rtx tmp = adjust_address (value, Pmode, INTVAL (offs)); ptr = gen_reg_rtx (Pmode); emit_move_insn (ptr, tmp); } else ptr = gen_rtx_SUBREG (Pmode, value, INTVAL (offs)); targetm.calls.store_bounds_for_arg (ptr, slot, reg, NULL); } } } /* Emit code to copy bounds for structure VALUE of type TYPE copied to SLOT. */ void chkp_copy_bounds_for_stack_parm (rtx slot, rtx value, tree type) { bitmap have_bound; bitmap_iterator bi; unsigned i; rtx tmp = NULL, bnd; gcc_assert (TYPE_SIZE (type)); gcc_assert (MEM_P (value)); gcc_assert (MEM_P (slot)); gcc_assert (RECORD_OR_UNION_TYPE_P (type)); bitmap_obstack_initialize (NULL); have_bound = BITMAP_ALLOC (NULL); chkp_find_bound_slots (type, have_bound); EXECUTE_IF_SET_IN_BITMAP (have_bound, 0, i, bi) { rtx ptr = adjust_address (value, Pmode, i * POINTER_SIZE / 8); rtx to = adjust_address (slot, Pmode, i * POINTER_SIZE / 8); if (!tmp) tmp = gen_reg_rtx (Pmode); emit_move_insn (tmp, ptr); bnd = targetm.calls.load_bounds_for_arg (ptr, tmp, NULL); targetm.calls.store_bounds_for_arg (tmp, to, bnd, NULL); } BITMAP_FREE (have_bound); bitmap_obstack_release (NULL); }