// SPDX-License-Identifier: GPL-2.0 #include static struct ins_ops *powerpc__associate_instruction_ops(struct arch *arch, const char *name) { int i; struct ins_ops *ops; /* * - Interested only if instruction starts with 'b'. * - Few start with 'b', but aren't branch instructions. */ if (name[0] != 'b' || !strncmp(name, "bcd", 3) || !strncmp(name, "brinc", 5) || !strncmp(name, "bper", 4)) return NULL; ops = &jump_ops; i = strlen(name) - 1; if (i < 0) return NULL; /* ignore optional hints at the end of the instructions */ if (name[i] == '+' || name[i] == '-') i--; if (name[i] == 'l' || (name[i] == 'a' && name[i-1] == 'l')) { /* * if the instruction ends up with 'l' or 'la', then * those are considered 'calls' since they update LR. * ... except for 'bnl' which is branch if not less than * and the absolute form of the same. */ if (strcmp(name, "bnl") && strcmp(name, "bnl+") && strcmp(name, "bnl-") && strcmp(name, "bnla") && strcmp(name, "bnla+") && strcmp(name, "bnla-")) ops = &call_ops; } if (name[i] == 'r' && name[i-1] == 'l') /* * instructions ending with 'lr' are considered to be * return instructions */ ops = &ret_ops; arch__associate_ins_ops(arch, name, ops); return ops; } #define PPC_OP(op) (((op) >> 26) & 0x3F) #define PPC_21_30(R) (((R) >> 1) & 0x3ff) #define PPC_22_30(R) (((R) >> 1) & 0x1ff) struct insn_offset { const char *name; int value; }; /* * There are memory instructions with opcode 31 which are * of X Form, Example: * ldx RT,RA,RB * ______________________________________ * | 31 | RT | RA | RB | 21 |/| * -------------------------------------- * 0 6 11 16 21 30 31 * * But all instructions with opcode 31 are not memory. * Example: add RT,RA,RB * * Use bits 21 to 30 to check memory insns with 31 as opcode. * In ins_array below, for ldx instruction: * name => OP_31_XOP_LDX * value => 21 */ static struct insn_offset ins_array[] = { { .name = "OP_31_XOP_LXSIWZX", .value = 12, }, { .name = "OP_31_XOP_LWARX", .value = 20, }, { .name = "OP_31_XOP_LDX", .value = 21, }, { .name = "OP_31_XOP_LWZX", .value = 23, }, { .name = "OP_31_XOP_LDUX", .value = 53, }, { .name = "OP_31_XOP_LWZUX", .value = 55, }, { .name = "OP_31_XOP_LXSIWAX", .value = 76, }, { .name = "OP_31_XOP_LDARX", .value = 84, }, { .name = "OP_31_XOP_LBZX", .value = 87, }, { .name = "OP_31_XOP_LVX", .value = 103, }, { .name = "OP_31_XOP_LBZUX", .value = 119, }, { .name = "OP_31_XOP_STXSIWX", .value = 140, }, { .name = "OP_31_XOP_STDX", .value = 149, }, { .name = "OP_31_XOP_STWX", .value = 151, }, { .name = "OP_31_XOP_STDUX", .value = 181, }, { .name = "OP_31_XOP_STWUX", .value = 183, }, { .name = "OP_31_XOP_STBX", .value = 215, }, { .name = "OP_31_XOP_STVX", .value = 231, }, { .name = "OP_31_XOP_STBUX", .value = 247, }, { .name = "OP_31_XOP_LHZX", .value = 279, }, { .name = "OP_31_XOP_LHZUX", .value = 311, }, { .name = "OP_31_XOP_LXVDSX", .value = 332, }, { .name = "OP_31_XOP_LWAX", .value = 341, }, { .name = "OP_31_XOP_LHAX", .value = 343, }, { .name = "OP_31_XOP_LWAUX", .value = 373, }, { .name = "OP_31_XOP_LHAUX", .value = 375, }, { .name = "OP_31_XOP_STHX", .value = 407, }, { .name = "OP_31_XOP_STHUX", .value = 439, }, { .name = "OP_31_XOP_LXSSPX", .value = 524, }, { .name = "OP_31_XOP_LDBRX", .value = 532, }, { .name = "OP_31_XOP_LSWX", .value = 533, }, { .name = "OP_31_XOP_LWBRX", .value = 534, }, { .name = "OP_31_XOP_LFSUX", .value = 567, }, { .name = "OP_31_XOP_LXSDX", .value = 588, }, { .name = "OP_31_XOP_LSWI", .value = 597, }, { .name = "OP_31_XOP_LFDX", .value = 599, }, { .name = "OP_31_XOP_LFDUX", .value = 631, }, { .name = "OP_31_XOP_STXSSPX", .value = 652, }, { .name = "OP_31_XOP_STDBRX", .value = 660, }, { .name = "OP_31_XOP_STXWX", .value = 661, }, { .name = "OP_31_XOP_STWBRX", .value = 662, }, { .name = "OP_31_XOP_STFSX", .value = 663, }, { .name = "OP_31_XOP_STFSUX", .value = 695, }, { .name = "OP_31_XOP_STXSDX", .value = 716, }, { .name = "OP_31_XOP_STSWI", .value = 725, }, { .name = "OP_31_XOP_STFDX", .value = 727, }, { .name = "OP_31_XOP_STFDUX", .value = 759, }, { .name = "OP_31_XOP_LXVW4X", .value = 780, }, { .name = "OP_31_XOP_LHBRX", .value = 790, }, { .name = "OP_31_XOP_LXVD2X", .value = 844, }, { .name = "OP_31_XOP_LFIWAX", .value = 855, }, { .name = "OP_31_XOP_LFIWZX", .value = 887, }, { .name = "OP_31_XOP_STXVW4X", .value = 908, }, { .name = "OP_31_XOP_STHBRX", .value = 918, }, { .name = "OP_31_XOP_STXVD2X", .value = 972, }, { .name = "OP_31_XOP_STFIWX", .value = 983, }, }; /* * Arithmetic instructions which are having opcode as 31. * These instructions are tracked to save the register state * changes. Example: * * lwz r10,264(r3) * add r31, r3, r3 * lwz r9, 0(r31) * * Here instruction tracking needs to identify the "add" * instruction and save data type of r3 to r31. If a sample * is hit at next "lwz r9, 0(r31)", by this instruction tracking, * data type of r31 can be resolved. */ static struct insn_offset arithmetic_ins_op_31[] = { { .name = "SUB_CARRY_XO_FORM", .value = 8, }, { .name = "MUL_HDW_XO_FORM1", .value = 9, }, { .name = "ADD_CARRY_XO_FORM", .value = 10, }, { .name = "MUL_HW_XO_FORM1", .value = 11, }, { .name = "SUB_XO_FORM", .value = 40, }, { .name = "MUL_HDW_XO_FORM", .value = 73, }, { .name = "MUL_HW_XO_FORM", .value = 75, }, { .name = "SUB_EXT_XO_FORM", .value = 136, }, { .name = "ADD_EXT_XO_FORM", .value = 138, }, { .name = "SUB_ZERO_EXT_XO_FORM", .value = 200, }, { .name = "ADD_ZERO_EXT_XO_FORM", .value = 202, }, { .name = "SUB_EXT_XO_FORM2", .value = 232, }, { .name = "MUL_DW_XO_FORM", .value = 233, }, { .name = "ADD_EXT_XO_FORM2", .value = 234, }, { .name = "MUL_W_XO_FORM", .value = 235, }, { .name = "ADD_XO_FORM", .value = 266, }, { .name = "DIV_DW_XO_FORM1", .value = 457, }, { .name = "DIV_W_XO_FORM1", .value = 459, }, { .name = "DIV_DW_XO_FORM", .value = 489, }, { .name = "DIV_W_XO_FORM", .value = 491, }, }; static struct insn_offset arithmetic_two_ops[] = { { .name = "mulli", .value = 7, }, { .name = "subfic", .value = 8, }, { .name = "addic", .value = 12, }, { .name = "addic.", .value = 13, }, { .name = "addi", .value = 14, }, { .name = "addis", .value = 15, }, }; static int cmp_offset(const void *a, const void *b) { const struct insn_offset *val1 = a; const struct insn_offset *val2 = b; return (val1->value - val2->value); } static struct ins_ops *check_ppc_insn(struct disasm_line *dl) { int raw_insn = dl->raw.raw_insn; int opcode = PPC_OP(raw_insn); int mem_insn_31 = PPC_21_30(raw_insn); struct insn_offset *ret; struct insn_offset mem_insns_31_opcode = { "OP_31_INSN", mem_insn_31 }; char name_insn[32]; /* * Instructions with opcode 32 to 63 are memory * instructions in powerpc */ if ((opcode & 0x20)) { /* * Set name in case of raw instruction to * opcode to be used in insn-stat */ if (!strlen(dl->ins.name)) { sprintf(name_insn, "%d", opcode); dl->ins.name = strdup(name_insn); } return &load_store_ops; } else if (opcode == 31) { /* Check for memory instructions with opcode 31 */ ret = bsearch(&mem_insns_31_opcode, ins_array, ARRAY_SIZE(ins_array), sizeof(ins_array[0]), cmp_offset); if (ret) { if (!strlen(dl->ins.name)) dl->ins.name = strdup(ret->name); return &load_store_ops; } else { mem_insns_31_opcode.value = PPC_22_30(raw_insn); ret = bsearch(&mem_insns_31_opcode, arithmetic_ins_op_31, ARRAY_SIZE(arithmetic_ins_op_31), sizeof(arithmetic_ins_op_31[0]), cmp_offset); if (ret != NULL) return &arithmetic_ops; /* Bits 21 to 30 has value 444 for "mr" insn ie, OR X form */ if (PPC_21_30(raw_insn) == 444) return &arithmetic_ops; } } else { mem_insns_31_opcode.value = opcode; ret = bsearch(&mem_insns_31_opcode, arithmetic_two_ops, ARRAY_SIZE(arithmetic_two_ops), sizeof(arithmetic_two_ops[0]), cmp_offset); if (ret != NULL) return &arithmetic_ops; } return NULL; } /* * Instruction tracking function to track register state moves. * Example sequence: * ld r10,264(r3) * mr r31,r3 * < * ld r9,312(r31) * * Previous instruction sequence shows that register state of r3 * is moved to r31. update_insn_state_powerpc tracks these state * changes */ #ifdef HAVE_DWARF_SUPPORT static void update_insn_state_powerpc(struct type_state *state, struct data_loc_info *dloc, Dwarf_Die * cu_die __maybe_unused, struct disasm_line *dl) { struct annotated_insn_loc loc; struct annotated_op_loc *src = &loc.ops[INSN_OP_SOURCE]; struct annotated_op_loc *dst = &loc.ops[INSN_OP_TARGET]; struct type_state_reg *tsr; u32 insn_offset = dl->al.offset; if (annotate_get_insn_location(dloc->arch, dl, &loc) < 0) return; /* * Value 444 for bits 21:30 is for "mr" * instruction. "mr" is extended OR. So set the * source and destination reg correctly */ if (PPC_21_30(dl->raw.raw_insn) == 444) { int src_reg = src->reg1; src->reg1 = dst->reg1; dst->reg1 = src_reg; } if (!has_reg_type(state, dst->reg1)) return; tsr = &state->regs[dst->reg1]; if (!has_reg_type(state, src->reg1) || !state->regs[src->reg1].ok) { tsr->ok = false; return; } tsr->type = state->regs[src->reg1].type; tsr->kind = state->regs[src->reg1].kind; tsr->ok = true; pr_debug_dtp("mov [%x] reg%d -> reg%d", insn_offset, src->reg1, dst->reg1); pr_debug_type_name(&tsr->type, tsr->kind); } #endif /* HAVE_DWARF_SUPPORT */ static int powerpc__annotate_init(struct arch *arch, char *cpuid __maybe_unused) { if (!arch->initialized) { arch->initialized = true; arch->associate_instruction_ops = powerpc__associate_instruction_ops; arch->objdump.comment_char = '#'; annotate_opts.show_asm_raw = true; } return 0; }