/* Disassembly display. Copyright (C) 1998-2019 Free Software Foundation, Inc. Contributed by Hewlett-Packard Company. 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 "defs.h" #include "arch-utils.h" #include "symtab.h" #include "breakpoint.h" #include "frame.h" #include "value.h" #include "source.h" #include "disasm.h" #include "tui/tui.h" #include "tui/tui-data.h" #include "tui/tui-win.h" #include "tui/tui-layout.h" #include "tui/tui-winsource.h" #include "tui/tui-stack.h" #include "tui/tui-file.h" #include "tui/tui-disasm.h" #include "tui/tui-source.h" #include "progspace.h" #include "objfiles.h" #include "gdb_curses.h" struct tui_asm_line { CORE_ADDR addr; char *addr_string; char *insn; }; /* Function to set the disassembly window's content. Disassemble count lines starting at pc. Return address of the count'th instruction after pc. */ static CORE_ADDR tui_disassemble (struct gdbarch *gdbarch, struct tui_asm_line *asm_lines, CORE_ADDR pc, int count) { string_file gdb_dis_out; /* Now construct each line. */ for (; count > 0; count--, asm_lines++) { xfree (asm_lines->addr_string); xfree (asm_lines->insn); print_address (gdbarch, pc, &gdb_dis_out); asm_lines->addr = pc; asm_lines->addr_string = xstrdup (gdb_dis_out.c_str ()); gdb_dis_out.clear (); pc = pc + gdb_print_insn (gdbarch, pc, &gdb_dis_out, NULL); asm_lines->insn = xstrdup (gdb_dis_out.c_str ()); /* Reset the buffer to empty. */ gdb_dis_out.clear (); } return pc; } /* Find the disassembly address that corresponds to FROM lines above or below the PC. Variable sized instructions are taken into account by the algorithm. */ static CORE_ADDR tui_find_disassembly_address (struct gdbarch *gdbarch, CORE_ADDR pc, int from) { CORE_ADDR new_low; int max_lines; int i; struct tui_asm_line *asm_lines; max_lines = (from > 0) ? from : - from; if (max_lines <= 1) return pc; asm_lines = XALLOCAVEC (struct tui_asm_line, max_lines); memset (asm_lines, 0, sizeof (struct tui_asm_line) * max_lines); new_low = pc; if (from > 0) { tui_disassemble (gdbarch, asm_lines, pc, max_lines); new_low = asm_lines[max_lines - 1].addr; } else { CORE_ADDR last_addr; int pos; struct bound_minimal_symbol msymbol; /* Find backward an address which is a symbol and for which disassembling from that address will fill completely the window. */ pos = max_lines - 1; do { new_low -= 1 * max_lines; msymbol = lookup_minimal_symbol_by_pc_section (new_low, 0); if (msymbol.minsym) new_low = BMSYMBOL_VALUE_ADDRESS (msymbol); else new_low += 1 * max_lines; tui_disassemble (gdbarch, asm_lines, new_low, max_lines); last_addr = asm_lines[pos].addr; } while (last_addr > pc && msymbol.minsym); /* Scan forward disassembling one instruction at a time until the last visible instruction of the window matches the pc. We keep the disassembled instructions in the 'lines' window and shift it downward (increasing its addresses). */ if (last_addr < pc) do { CORE_ADDR next_addr; pos++; if (pos >= max_lines) pos = 0; next_addr = tui_disassemble (gdbarch, &asm_lines[pos], last_addr, 1); /* If there are some problems while disassembling exit. */ if (next_addr <= last_addr) break; last_addr = next_addr; } while (last_addr <= pc); pos++; if (pos >= max_lines) pos = 0; new_low = asm_lines[pos].addr; } for (i = 0; i < max_lines; i++) { xfree (asm_lines[i].addr_string); xfree (asm_lines[i].insn); } return new_low; } /* Function to set the disassembly window's content. */ enum tui_status tui_set_disassem_content (tui_source_window_base *win_info, struct gdbarch *gdbarch, CORE_ADDR pc) { int i; int offset = win_info->horizontal_offset; int max_lines, line_width; CORE_ADDR cur_pc; struct tui_locator_window *locator = tui_locator_win_info_ptr (); int tab_len = tui_tab_width; struct tui_asm_line *asm_lines; int insn_pos; int addr_size, insn_size; char *line; if (pc == 0) return TUI_FAILURE; win_info->gdbarch = gdbarch; win_info->start_line_or_addr.loa = LOA_ADDRESS; win_info->start_line_or_addr.u.addr = pc; cur_pc = locator->addr; /* Window size, excluding highlight box. */ max_lines = win_info->height - 2; line_width = win_info->width - 2; /* Get temporary table that will hold all strings (addr & insn). */ asm_lines = XALLOCAVEC (struct tui_asm_line, max_lines); memset (asm_lines, 0, sizeof (struct tui_asm_line) * max_lines); tui_disassemble (gdbarch, asm_lines, pc, max_lines); /* Determine maximum address- and instruction lengths. */ addr_size = 0; insn_size = 0; for (i = 0; i < max_lines; i++) { size_t len = strlen (asm_lines[i].addr_string); if (len > addr_size) addr_size = len; len = strlen (asm_lines[i].insn); if (len > insn_size) insn_size = len; } /* Align instructions to the same column. */ insn_pos = (1 + (addr_size / tab_len)) * tab_len; /* Allocate memory to create each line. */ line = (char*) alloca (insn_pos + insn_size + 1); /* Now construct each line. */ win_info->content.resize (max_lines); for (i = 0; i < max_lines; i++) { int cur_len; tui_source_element *src = &win_info->content[i]; strcpy (line, asm_lines[i].addr_string); cur_len = strlen (line); memset (line + cur_len, ' ', insn_pos - cur_len); strcpy (line + insn_pos, asm_lines[i].insn); /* Now copy the line taking the offset into account. */ xfree (src->line); if (strlen (line) > offset) src->line = xstrndup (&line[offset], line_width); else src->line = xstrdup (""); src->line_or_addr.loa = LOA_ADDRESS; src->line_or_addr.u.addr = asm_lines[i].addr; src->is_exec_point = asm_lines[i].addr == cur_pc; xfree (asm_lines[i].addr_string); xfree (asm_lines[i].insn); } return TUI_SUCCESS; } /* Function to display the disassembly window with disassembled code. */ void tui_show_disassem (struct gdbarch *gdbarch, CORE_ADDR start_addr) { struct symtab *s = find_pc_line_symtab (start_addr); struct tui_win_info *win_with_focus = tui_win_with_focus (); struct tui_line_or_address val; gdb_assert (TUI_DISASM_WIN != nullptr && TUI_DISASM_WIN->is_visible ()); val.loa = LOA_ADDRESS; val.u.addr = start_addr; TUI_DISASM_WIN->update_source_window (gdbarch, s, val); /* If the focus was in the src win, put it in the asm win, if the source view isn't split. */ if (tui_current_layout () != SRC_DISASSEM_COMMAND && win_with_focus == TUI_SRC_WIN) tui_set_win_focus_to (TUI_DISASM_WIN); } /* Function to display the disassembly window. */ void tui_show_disassem_and_update_source (struct gdbarch *gdbarch, CORE_ADDR start_addr) { struct symtab_and_line sal; tui_show_disassem (gdbarch, start_addr); if (tui_current_layout () == SRC_DISASSEM_COMMAND) { struct tui_line_or_address val; /* Update what is in the source window if it is displayed too, note that it follows what is in the disassembly window and visa-versa. */ sal = find_pc_line (start_addr, 0); val.loa = LOA_LINE; val.u.line_no = sal.line; TUI_SRC_WIN->update_source_window (gdbarch, sal.symtab, val); if (sal.symtab) { set_current_source_symtab_and_line (sal); tui_update_locator_fullname (symtab_to_fullname (sal.symtab)); } else tui_update_locator_fullname ("?"); } } void tui_get_begin_asm_address (struct gdbarch **gdbarch_p, CORE_ADDR *addr_p) { struct tui_locator_window *locator; struct gdbarch *gdbarch = get_current_arch (); CORE_ADDR addr; locator = tui_locator_win_info_ptr (); if (locator->addr == 0) { struct bound_minimal_symbol main_symbol; /* Find address of the start of program. Note: this should be language specific. */ main_symbol = lookup_minimal_symbol ("main", NULL, NULL); if (main_symbol.minsym == 0) main_symbol = lookup_minimal_symbol ("MAIN", NULL, NULL); if (main_symbol.minsym == 0) main_symbol = lookup_minimal_symbol ("_start", NULL, NULL); if (main_symbol.minsym) addr = BMSYMBOL_VALUE_ADDRESS (main_symbol); else addr = 0; } else /* The target is executing. */ { gdbarch = locator->gdbarch; addr = locator->addr; } *gdbarch_p = gdbarch; *addr_p = addr; } /* Determine what the low address will be to display in the TUI's disassembly window. This may or may not be the same as the low address input. */ CORE_ADDR tui_get_low_disassembly_address (struct gdbarch *gdbarch, CORE_ADDR low, CORE_ADDR pc) { int pos; /* Determine where to start the disassembly so that the pc is about in the middle of the viewport. */ pos = tui_default_win_viewport_height (DISASSEM_WIN, DISASSEM_COMMAND) / 2; pc = tui_find_disassembly_address (gdbarch, pc, -pos); if (pc < low) pc = low; return pc; } /* Scroll the disassembly forward or backward vertically. */ void tui_disasm_window::do_scroll_vertical (int num_to_scroll) { if (!content.empty ()) { CORE_ADDR pc; struct tui_line_or_address val; pc = content[0].line_or_addr.u.addr; if (num_to_scroll >= 0) num_to_scroll++; else --num_to_scroll; val.loa = LOA_ADDRESS; val.u.addr = tui_find_disassembly_address (gdbarch, pc, num_to_scroll); update_source_window_as_is (gdbarch, NULL, val); } } bool tui_disasm_window::location_matches_p (struct bp_location *loc, int line_no) { return (content[line_no].line_or_addr.loa == LOA_ADDRESS && content[line_no].line_or_addr.u.addr == loc->address); } bool tui_disasm_window::addr_is_displayed (CORE_ADDR addr) const { bool is_displayed = false; int threshold = SCROLL_THRESHOLD; int i = 0; while (i < content.size () - threshold && !is_displayed) { is_displayed = (content[i].line_or_addr.loa == LOA_ADDRESS && content[i].line_or_addr.u.addr == addr); i++; } return is_displayed; } void tui_disasm_window::maybe_update (struct frame_info *fi, symtab_and_line sal, int line_no, CORE_ADDR addr) { CORE_ADDR low; if (find_pc_partial_function (get_frame_pc (fi), NULL, &low, NULL) == 0) { /* There is no symbol available for current PC. There is no safe way how to "disassemble backwards". */ low = get_frame_pc (fi); } else low = tui_get_low_disassembly_address (get_frame_arch (fi), low, get_frame_pc (fi)); struct tui_line_or_address a; a.loa = LOA_ADDRESS; a.u.addr = low; if (!addr_is_displayed (addr)) update_source_window (get_frame_arch (fi), sal.symtab, a); else { a.u.addr = addr; set_is_exec_point_at (a); } }