/* Common Linux target-dependent functionality for AArch64 MTE Copyright (C) 2021-2023 Free Software Foundation, Inc. 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 3 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. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include "arch/aarch64-mte-linux.h" /* See arch/aarch64-mte-linux.h */ void aarch64_mte_pack_tags (gdb::byte_vector &tags) { /* Nothing to pack? */ if (tags.empty ()) return; /* If the tags vector has an odd number of elements, add another zeroed-out element to make it even. This facilitates packing. */ if ((tags.size () % 2) != 0) tags.emplace_back (0); for (int unpacked = 0, packed = 0; unpacked < tags.size (); unpacked += 2, packed++) tags[packed] = (tags[unpacked + 1] << 4) | tags[unpacked]; /* Now we have half the size. */ tags.resize (tags.size () / 2); } /* See arch/aarch64-mte-linux.h */ void aarch64_mte_unpack_tags (gdb::byte_vector &tags, bool skip_first) { /* Nothing to unpack? */ if (tags.empty ()) return; /* An unpacked MTE tags vector will have twice the number of elements compared to an unpacked one. */ gdb::byte_vector unpacked_tags (tags.size () * 2); int unpacked = 0, packed = 0; if (skip_first) { /* We are not interested in the first unpacked element, just discard it. */ unpacked_tags[unpacked] = (tags[packed] >> 4) & 0xf; unpacked++; packed++; } for (; packed < tags.size (); unpacked += 2, packed++) { unpacked_tags[unpacked] = tags[packed] & 0xf; unpacked_tags[unpacked + 1] = (tags[packed] >> 4) & 0xf; } /* Update the original tags vector. */ tags = std::move (unpacked_tags); } /* See arch/aarch64-mte-linux.h */ size_t aarch64_mte_get_tag_granules (CORE_ADDR addr, size_t len, size_t granule_size) { /* An empty range has 0 tag granules. */ if (len == 0) return 0; /* Start address */ CORE_ADDR s_addr = align_down (addr, granule_size); /* End address */ CORE_ADDR e_addr = align_down (addr + len - 1, granule_size); /* We always have at least 1 granule because len is non-zero at this point. */ return 1 + (e_addr - s_addr) / granule_size; } /* See arch/aarch64-mte-linux.h */ CORE_ADDR aarch64_mte_make_ltag_bits (CORE_ADDR value) { return value & AARCH64_MTE_LOGICAL_MAX_VALUE; } /* See arch/aarch64-mte-linux.h */ CORE_ADDR aarch64_mte_make_ltag (CORE_ADDR value) { return (aarch64_mte_make_ltag_bits (value) << AARCH64_MTE_LOGICAL_TAG_START_BIT); } /* See arch/aarch64-mte-linux.h */ CORE_ADDR aarch64_mte_set_ltag (CORE_ADDR address, CORE_ADDR tag) { /* Remove the existing tag. */ address &= ~aarch64_mte_make_ltag (AARCH64_MTE_LOGICAL_MAX_VALUE); /* Return the new tagged address. */ return address | aarch64_mte_make_ltag (tag); } /* See arch/aarch64-mte-linux.h */ CORE_ADDR aarch64_mte_get_ltag (CORE_ADDR address) { CORE_ADDR ltag_addr = address >> AARCH64_MTE_LOGICAL_TAG_START_BIT; return aarch64_mte_make_ltag_bits (ltag_addr); }