/* Copyright (C) 2009-2019 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 #include #include #include #include JIT_READER_H /* Please see jit-reader.exp for an explanation. */ #include "jithost.h" GDB_DECLARE_GPL_COMPATIBLE_READER; enum register_mapping { AMD64_RA = 16, AMD64_RBP = 6, AMD64_RSP = 7, }; struct reader_state { struct { uintptr_t begin; uintptr_t end; } func_stack_mangle; }; static enum gdb_status read_debug_info (struct gdb_reader_funcs *self, struct gdb_symbol_callbacks *cbs, void *memory, long memory_sz) { struct jithost_abi *symfile = memory; struct gdb_object *object = cbs->object_open (cbs); struct gdb_symtab *symtab = cbs->symtab_open (cbs, object, ""); struct reader_state *state = (struct reader_state *) self->priv_data; /* Record the stack mangle function's range, for the unwinder. */ state->func_stack_mangle.begin = (uintptr_t) symfile->function_stack_mangle.begin; state->func_stack_mangle.end = (uintptr_t) symfile->function_stack_mangle.end; cbs->block_open (cbs, symtab, NULL, (GDB_CORE_ADDR) symfile->function_stack_mangle.begin, (GDB_CORE_ADDR) symfile->function_stack_mangle.end, "jit_function_stack_mangle"); cbs->block_open (cbs, symtab, NULL, (GDB_CORE_ADDR) symfile->function_add.begin, (GDB_CORE_ADDR) symfile->function_add.end, "jit_function_add"); cbs->symtab_close (cbs, symtab); cbs->object_close (cbs, object); return GDB_SUCCESS; } static void free_reg_value (struct gdb_reg_value *value) { free (value); } static void write_register (struct gdb_unwind_callbacks *callbacks, int dw_reg, uintptr_t value) { const int size = sizeof (uintptr_t); struct gdb_reg_value *reg_val = malloc (sizeof (struct gdb_reg_value) + size - 1); reg_val->defined = 1; reg_val->free = free_reg_value; memcpy (reg_val->value, &value, size); callbacks->reg_set (callbacks, dw_reg, reg_val); } static int read_register (struct gdb_unwind_callbacks *callbacks, int dw_reg, uintptr_t *value) { const int size = sizeof (uintptr_t); struct gdb_reg_value *reg_val = callbacks->reg_get (callbacks, dw_reg); if (reg_val->size != size || !reg_val->defined) { reg_val->free (reg_val); return 0; } memcpy (value, reg_val->value, size); reg_val->free (reg_val); return 1; } /* Read the stack pointer into *VALUE. IP is the address the inferior is currently stopped at. Takes care of demangling the stack pointer if necessary. */ static int read_sp (struct gdb_reader_funcs *self, struct gdb_unwind_callbacks *cbs, uintptr_t ip, uintptr_t *value) { struct reader_state *state = (struct reader_state *) self->priv_data; uintptr_t sp; if (!read_register (cbs, AMD64_RSP, &sp)) return GDB_FAIL; /* If stopped at the instruction after the "xor $-1, %rsp", demangle the stack pointer back. */ if (ip == state->func_stack_mangle.begin + 5) sp ^= (uintptr_t) -1; *value = sp; return GDB_SUCCESS; } static enum gdb_status unwind_frame (struct gdb_reader_funcs *self, struct gdb_unwind_callbacks *cbs) { const int word_size = sizeof (uintptr_t); uintptr_t prev_sp, this_sp; uintptr_t prev_ip, this_ip; uintptr_t prev_bp, this_bp; struct reader_state *state = (struct reader_state *) self->priv_data; if (!read_register (cbs, AMD64_RA, &this_ip)) return GDB_FAIL; if (this_ip >= state->func_stack_mangle.end || this_ip < state->func_stack_mangle.begin) return GDB_FAIL; /* Unwind RBP in order to make the unwinder that tries to unwind from the just-unwound frame happy. */ if (!read_register (cbs, AMD64_RBP, &this_bp)) return GDB_FAIL; /* RBP is unmodified. */ prev_bp = this_bp; /* Fetch the demangled stack pointer. */ if (!read_sp (self, cbs, this_ip, &this_sp)) return GDB_FAIL; /* The return address is saved on the stack. */ if (cbs->target_read (this_sp, &prev_ip, word_size) == GDB_FAIL) return GDB_FAIL; prev_sp = this_sp + word_size; write_register (cbs, AMD64_RA, prev_ip); write_register (cbs, AMD64_RSP, prev_sp); write_register (cbs, AMD64_RBP, prev_bp); return GDB_SUCCESS; } static struct gdb_frame_id get_frame_id (struct gdb_reader_funcs *self, struct gdb_unwind_callbacks *cbs) { struct reader_state *state = (struct reader_state *) self->priv_data; struct gdb_frame_id frame_id; uintptr_t ip; uintptr_t sp; read_register (cbs, AMD64_RA, &ip); read_sp (self, cbs, ip, &sp); frame_id.code_address = (GDB_CORE_ADDR) state->func_stack_mangle.begin; frame_id.stack_address = (GDB_CORE_ADDR) sp; return frame_id; } static void destroy_reader (struct gdb_reader_funcs *self) { free (self->priv_data); free (self); } struct gdb_reader_funcs * gdb_init_reader (void) { struct reader_state *state = calloc (1, sizeof (struct reader_state)); struct gdb_reader_funcs *reader_funcs = malloc (sizeof (struct gdb_reader_funcs)); reader_funcs->reader_version = GDB_READER_INTERFACE_VERSION; reader_funcs->priv_data = state; reader_funcs->read = read_debug_info; reader_funcs->unwind = unwind_frame; reader_funcs->get_frame_id = get_frame_id; reader_funcs->destroy = destroy_reader; return reader_funcs; }