/* * GRUB -- GRand Unified Bootloader * Copyright (C) 2005,2006,2007,2008,2009 Free Software Foundation, Inc. * * GRUB 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. * * GRUB 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 GRUB. If not, see . */ #include #include #include #include #include #include #include #include #include #include #include enum update_mode { NO_LINE, SINGLE_LINE, ALL_LINES }; struct line { /* The line buffer. */ grub_uint32_t *buf; /* The length of the line. */ int len; /* The maximum length of the line. */ int max_len; }; struct per_term_screen { struct grub_term_output *term; /* The X coordinate. */ int x; /* The Y coordinate. */ int y; int y_line_start; /* Number of entries. */ int num_entries; }; struct screen { /* The array of lines. */ struct line *lines; /* The number of lines. */ int num_lines; /* The current column. */ int column; /* The real column. */ int real_column; /* The current line. */ int line; /* The kill buffer. */ char *killed_text; /* The flag of a completion window. */ int completion_shown; int submenu; struct per_term_screen *terms; unsigned nterms; }; /* Used for storing completion items temporarily. */ static struct { char *buf; grub_size_t len; grub_size_t max_len; } completion_buffer; static int completion_type; /* Initialize a line. */ static int init_line (struct line *linep) { linep->len = 0; linep->max_len = 80; linep->buf = grub_malloc ((linep->max_len + 1) * sizeof (linep->buf[0])); if (! linep->buf) return 0; return 1; } /* Allocate extra space if necessary. */ static int ensure_space (struct line *linep, int extra) { if (linep->max_len < linep->len + extra) { linep->max_len = 2 * (linep->len + extra); linep->buf = grub_realloc (linep->buf, (linep->max_len + 1) * sizeof (linep->buf[0])); if (! linep->buf) return 0; } return 1; } /* Return the number of lines occupied by this line on the screen. */ static int get_logical_num_lines (struct line *linep, struct per_term_screen *term_screen) { return (grub_getstringwidth (linep->buf, linep->buf + linep->len, term_screen->term) / grub_term_entry_width (term_screen->term)) + 1; } static void advance (struct screen *screen) { unsigned i; struct grub_unicode_glyph glyph; screen->column += grub_unicode_aglomerate_comb (screen->lines[screen->line].buf + screen->column, screen->lines[screen->line].len - screen->column, &glyph); for (i = 0; i < screen->nterms; i++) { grub_ssize_t width; width = grub_term_getcharwidth (screen->terms[i].term, &glyph); screen->terms[i].x += width; if (screen->terms[i].x == grub_term_entry_width (screen->terms[i].term)) { screen->terms[i].x = 0; screen->terms[i].y++; } if (screen->terms[i].x > grub_term_entry_width (screen->terms[i].term)) { screen->terms[i].x = width; screen->terms[i].y++; } } grub_free (glyph.combining); } static void advance_to (struct screen *screen, int c) { if (c > screen->lines[screen->line].len) c = screen->lines[screen->line].len; while (screen->column < c) advance (screen); } /* Print a line. */ static int print_line (struct line *linep, int offset, int y, struct per_term_screen *term_screen, int dry_run) { int x; int i; grub_term_gotoxy (term_screen->term, GRUB_TERM_LEFT_BORDER_X + GRUB_TERM_MARGIN + 1, y + GRUB_TERM_FIRST_ENTRY_Y); x = 0; for (i = 0; i + offset < (int) linep->len;) { grub_ssize_t width; grub_size_t delta = 0; struct grub_unicode_glyph glyph; delta = grub_unicode_aglomerate_comb (linep->buf + offset + i, linep->len - offset - i, &glyph); width = grub_term_getcharwidth (term_screen->term, &glyph); grub_free (glyph.combining); if (x + width > grub_term_entry_width (term_screen->term) && x != 0) break; x += width; i += delta; } if (dry_run) return i; grub_print_ucs4 (linep->buf + offset, linep->buf + offset + i, 0, 0, term_screen->term); if (i + offset != linep->len) grub_putcode ('\\', term_screen->term); else { for (; x < (int) grub_term_entry_width (term_screen->term); x++) grub_putcode (' ', term_screen->term); } return i; } /* Print an empty line. */ static void print_empty_line (int y, struct per_term_screen *term_screen) { int i; grub_term_gotoxy (term_screen->term, GRUB_TERM_LEFT_BORDER_X + GRUB_TERM_MARGIN + 1, y + GRUB_TERM_FIRST_ENTRY_Y); for (i = 0; i < grub_term_entry_width (term_screen->term) + 1; i++) grub_putcode (' ', term_screen->term); } /* Print an up arrow. */ static void print_up (int flag, struct per_term_screen *term_screen) { grub_term_gotoxy (term_screen->term, GRUB_TERM_LEFT_BORDER_X + grub_term_border_width (term_screen->term), GRUB_TERM_FIRST_ENTRY_Y); if (flag) grub_putcode (GRUB_UNICODE_UPARROW, term_screen->term); else grub_putcode (' ', term_screen->term); } /* Print a down arrow. */ static void print_down (int flag, struct per_term_screen *term_screen) { grub_term_gotoxy (term_screen->term, GRUB_TERM_LEFT_BORDER_X + grub_term_border_width (term_screen->term), GRUB_TERM_TOP_BORDER_Y + term_screen->num_entries); if (flag) grub_putcode (GRUB_UNICODE_DOWNARROW, term_screen->term); else grub_putcode (' ', term_screen->term); } /* Draw the lines of the screen SCREEN. */ static void update_screen (struct screen *screen, struct per_term_screen *term_screen, int region_start, int region_column, int up, int down, enum update_mode mode) { int up_flag = 0; int down_flag = 0; int y; int i; struct line *linep; /* Check if scrolling is necessary. */ if (term_screen->y < 0 || term_screen->y >= term_screen->num_entries) { int delta; if (term_screen->y < 0) delta = -term_screen->y; else delta = term_screen->num_entries - 1 - term_screen->y; term_screen->y += delta; term_screen->y_line_start += delta; region_start = 0; region_column = 0; up = 1; down = 1; mode = ALL_LINES; } if (mode != NO_LINE) { /* Draw lines. This code is tricky, because this must calculate logical positions. */ y = term_screen->y_line_start; i = screen->line; linep = screen->lines + i; while (y > 0) { i--; linep--; y -= get_logical_num_lines (linep, term_screen); } if (y < 0 || i > 0) up_flag = 1; do { int column; int off = 0; if (linep >= screen->lines + screen->num_lines) break; for (column = 0; column <= linep->len && y < term_screen->num_entries; column += grub_term_entry_width (term_screen->term), y++) { if (y < 0) { off += print_line (linep, off, y, term_screen, 1); continue; } if (i == region_start) { if (region_column >= column && region_column < (column + grub_term_entry_width (term_screen->term))) off += print_line (linep, off, y, term_screen, 0); else if (region_column < column) off += print_line (linep, off, y, term_screen, 0); else off += print_line (linep, off, y, term_screen, 1); } else if (i > region_start && mode == ALL_LINES) off += print_line (linep, off, y, term_screen, 0); } if (y == term_screen->num_entries) { if (off <= linep->len || i + 1 < screen->num_lines) down_flag = 1; } linep++; i++; if (mode == ALL_LINES && i == screen->num_lines) for (; y < term_screen->num_entries; y++) print_empty_line (y, term_screen); } while (y < term_screen->num_entries); /* Draw up and down arrows. */ if (up) print_up (up_flag, term_screen); if (down) print_down (down_flag, term_screen); } /* Place the cursor. */ grub_term_gotoxy (term_screen->term, GRUB_TERM_LEFT_BORDER_X + GRUB_TERM_MARGIN + 1 + term_screen->x, GRUB_TERM_FIRST_ENTRY_Y + term_screen->y); grub_term_refresh (term_screen->term); } static void update_screen_all (struct screen *screen, int region_start, int region_column, int up, int down, enum update_mode mode) { unsigned i; for (i = 0; i < screen->nterms; i++) update_screen (screen, &screen->terms[i], region_start, region_column, up, down, mode); } static int insert_string (struct screen *screen, const char *s, int update) { int region_start = screen->num_lines; int region_column = 0; int down[screen->nterms]; enum update_mode mode[screen->nterms]; unsigned i; for (i = 0; i < screen->nterms; i++) { down[i] = 0; mode[i] = NO_LINE; } while (*s) { if (*s == '\n') { /* LF is special because it creates a new line. */ struct line *current_linep; struct line *next_linep; int size; /* Make a new line. */ screen->num_lines++; screen->lines = grub_realloc (screen->lines, screen->num_lines * sizeof (screen->lines[0])); if (! screen->lines) return 0; /* Scroll down. */ grub_memmove (screen->lines + screen->line + 2, screen->lines + screen->line + 1, ((screen->num_lines - screen->line - 2) * sizeof (struct line))); if (! init_line (screen->lines + screen->line + 1)) return 0; /* Fold the line. */ current_linep = screen->lines + screen->line; next_linep = current_linep + 1; size = current_linep->len - screen->column; if (! ensure_space (next_linep, size)) return 0; grub_memmove (next_linep->buf, current_linep->buf + screen->column, size * sizeof (next_linep->buf[0])); current_linep->len = screen->column; next_linep->len = size; /* Update a dirty region. */ if (region_start > screen->line) { region_start = screen->line; region_column = screen->column; } for (i = 0; i < screen->nterms; i++) { mode[i] = ALL_LINES; down[i] = 1; /* XXX not optimal. */ } /* Move the cursor. */ screen->column = screen->real_column = 0; screen->line++; for (i = 0; i < screen->nterms; i++) { screen->terms[i].x = 0; screen->terms[i].y++; screen->terms[i].y_line_start = screen->terms[i].y; } s++; } else { /* All but LF. */ const char *p; struct line *current_linep; int size; int orig_num[screen->nterms], new_num[screen->nterms]; grub_uint32_t *unicode_msg; /* Find a string delimited by LF. */ p = grub_strchr (s, '\n'); if (! p) p = s + grub_strlen (s); /* Insert the string. */ current_linep = screen->lines + screen->line; unicode_msg = grub_malloc ((p - s) * sizeof (grub_uint32_t)); if (!unicode_msg) return 0; size = grub_utf8_to_ucs4 (unicode_msg, (p - s), (grub_uint8_t *) s, (p - s), 0); if (! ensure_space (current_linep, size)) return 0; grub_memmove (current_linep->buf + screen->column + size, current_linep->buf + screen->column, (current_linep->len - screen->column) * sizeof (current_linep->buf[0])); grub_memmove (current_linep->buf + screen->column, unicode_msg, size * sizeof (current_linep->buf[0])); grub_free (unicode_msg); for (i = 0; i < screen->nterms; i++) orig_num[i] = get_logical_num_lines (current_linep, &screen->terms[i]); current_linep->len += size; for (i = 0; i < screen->nterms; i++) new_num[i] = get_logical_num_lines (current_linep, &screen->terms[i]); /* Update the dirty region. */ if (region_start > screen->line) { region_start = screen->line; region_column = screen->column; } for (i = 0; i < screen->nterms; i++) if (orig_num[i] != new_num[i]) { mode[i] = ALL_LINES; down[i] = 1; /* XXX not optimal. */ } else if (mode[i] != ALL_LINES) mode[i] = SINGLE_LINE; /* Move the cursor. */ advance_to (screen, screen->column + size); screen->real_column = screen->column; s = p; } } if (update) for (i = 0; i < screen->nterms; i++) update_screen (screen, &screen->terms[i], region_start, region_column, 0, down[i], mode[i]); return 1; } /* Release the resource allocated for SCREEN. */ static void destroy_screen (struct screen *screen) { int i; if (screen->lines) for (i = 0; i < screen->num_lines; i++) { struct line *linep = screen->lines + i; if (linep) grub_free (linep->buf); } grub_free (screen->killed_text); grub_free (screen->lines); grub_free (screen->terms); grub_free (screen); } /* Make a new screen. */ static struct screen * make_screen (grub_menu_entry_t entry) { struct screen *screen; unsigned i; /* Initialize the screen. */ screen = grub_zalloc (sizeof (*screen)); if (! screen) return 0; screen->submenu = entry->submenu; screen->num_lines = 1; screen->lines = grub_malloc (sizeof (struct line)); if (! screen->lines) goto fail; /* Initialize the first line which must be always present. */ if (! init_line (screen->lines)) goto fail; insert_string (screen, (char *) entry->sourcecode, 0); /* Reset the cursor position. */ screen->column = 0; screen->real_column = 0; screen->line = 0; for (i = 0; i < screen->nterms; i++) { screen->terms[i].x = 0; screen->terms[i].y = 0; screen->terms[i].y_line_start = screen->terms[i].y; } return screen; fail: destroy_screen (screen); return 0; } static int forward_char (struct screen *screen, int update) { struct line *linep; unsigned i; linep = screen->lines + screen->line; if (screen->column < linep->len) advance (screen); else if (screen->num_lines > screen->line + 1) { screen->column = 0; screen->line++; for (i = 0; i < screen->nterms; i++) { screen->terms[i].x = 0; screen->terms[i].y++; screen->terms[i].y_line_start = screen->terms[i].y; } } screen->real_column = screen->column; if (update) update_screen_all (screen, screen->num_lines, 0, 0, 0, NO_LINE); return 1; } static int backward_char (struct screen *screen, int update) { unsigned i; if (screen->column > 0) { struct grub_unicode_glyph glyph; struct line *linep; linep = screen->lines + screen->line; screen->column--; screen->column = grub_unicode_get_comb_start (linep->buf, linep->buf + screen->column) - linep->buf; grub_unicode_aglomerate_comb (screen->lines[screen->line].buf + screen->column, screen->lines[screen->line].len - screen->column, &glyph); for (i = 0; i < screen->nterms; i++) { grub_ssize_t width; width = grub_term_getcharwidth (screen->terms[i].term, &glyph); screen->terms[i].x -= width; if (screen->terms[i].x < 0) { screen->terms[i].x = grub_term_entry_width (screen->terms[i].term) - 1; screen->terms[i].y--; } } grub_free (glyph.combining); } else if (screen->line > 0) { struct line *linep; linep = screen->lines + screen->line; screen->column = 0; screen->line--; for (i = 0; i < screen->nterms; i++) { screen->terms[i].y_line_start -= get_logical_num_lines (linep, &screen->terms[i]); screen->terms[i].y = screen->terms[i].y_line_start; screen->terms[i].x = 0; } advance_to (screen, screen->lines[screen->line].len); } screen->real_column = screen->column; if (update) update_screen_all (screen, screen->num_lines, 0, 0, 0, NO_LINE); return 1; } static int previous_line (struct screen *screen, int update) { unsigned i; if (screen->line > 0) { struct line *linep; int col; screen->line--; linep = screen->lines + screen->line; if (linep->len < screen->real_column) col = linep->len; else col = screen->real_column; screen->column = 0; for (i = 0; i < screen->nterms; i++) { screen->terms[i].y_line_start -= get_logical_num_lines (linep, &screen->terms[i]); screen->terms[i].y = screen->terms[i].y_line_start; screen->terms[i].x = 0; } advance_to (screen, col); } else { for (i = 0; i < screen->nterms; i++) { screen->terms[i].y = screen->terms[i].y_line_start; screen->terms[i].x = 0; } screen->column = 0; } if (update) update_screen_all (screen, screen->num_lines, 0, 0, 0, NO_LINE); return 1; } static int next_line (struct screen *screen, int update) { unsigned i; if (screen->line < screen->num_lines - 1) { struct line *linep; int c; /* How many physical lines from the current position to the last physical line? */ linep = screen->lines + screen->line; screen->line++; if ((linep + 1)->len < screen->real_column) c = (linep + 1)->len; else c = screen->real_column; screen->column = 0; for (i = 0; i < screen->nterms; i++) { screen->terms[i].y_line_start += get_logical_num_lines (linep, &screen->terms[i]); screen->terms[i].x = 0; screen->terms[i].y = screen->terms[i].y_line_start; } advance_to (screen, c); } else advance_to (screen, screen->lines[screen->line].len); if (update) update_screen_all (screen, screen->num_lines, 0, 0, 0, NO_LINE); return 1; } static int beginning_of_line (struct screen *screen, int update) { unsigned i; screen->column = screen->real_column = 0; for (i = 0; i < screen->nterms; i++) { screen->terms[i].x = 0; screen->terms[i].y = screen->terms[i].y_line_start; } if (update) update_screen_all (screen, screen->num_lines, 0, 0, 0, NO_LINE); return 1; } static int end_of_line (struct screen *screen, int update) { advance_to (screen, screen->lines[screen->line].len); if (update) update_screen_all (screen, screen->num_lines, 0, 0, 0, NO_LINE); return 1; } static int delete_char (struct screen *screen, int update) { struct line *linep; int start = screen->num_lines; int column = 0; linep = screen->lines + screen->line; if (linep->len > screen->column) { int orig_num[screen->nterms], new_num; unsigned i; for (i = 0; i < screen->nterms; i++) orig_num[i] = get_logical_num_lines (linep, &screen->terms[i]); grub_memmove (linep->buf + screen->column, linep->buf + screen->column + 1, (linep->len - screen->column - 1) * sizeof (linep->buf[0])); linep->len--; start = screen->line; column = screen->column; screen->real_column = screen->column; if (update) { for (i = 0; i < screen->nterms; i++) { new_num = get_logical_num_lines (linep, &screen->terms[i]); if (orig_num[i] != new_num) update_screen (screen, &screen->terms[i], start, column, 0, 0, ALL_LINES); else update_screen (screen, &screen->terms[i], start, column, 0, 0, SINGLE_LINE); } } } else if (screen->num_lines > screen->line + 1) { struct line *next_linep; next_linep = linep + 1; if (! ensure_space (linep, next_linep->len)) return 0; grub_memmove (linep->buf + linep->len, next_linep->buf, next_linep->len * sizeof (linep->buf[0])); linep->len += next_linep->len; grub_free (next_linep->buf); grub_memmove (next_linep, next_linep + 1, (screen->num_lines - screen->line - 2) * sizeof (struct line)); screen->num_lines--; start = screen->line; column = screen->column; screen->real_column = screen->column; if (update) update_screen_all (screen, start, column, 0, 1, ALL_LINES); } return 1; } static int backward_delete_char (struct screen *screen, int update) { int saved_column; int saved_line; saved_column = screen->column; saved_line = screen->line; if (! backward_char (screen, 0)) return 0; if (saved_column != screen->column || saved_line != screen->line) if (! delete_char (screen, update)) return 0; return 1; } static int kill_line (struct screen *screen, int continuous, int update) { struct line *linep; char *p; int size; int offset; p = screen->killed_text; if (! continuous && p) p[0] = '\0'; linep = screen->lines + screen->line; size = linep->len - screen->column; if (p) offset = grub_strlen (p); else offset = 0; if (size > 0) { int orig_num[screen->nterms], new_num; unsigned i; p = grub_realloc (p, offset + size + 1); if (! p) return 0; grub_memmove (p + offset, linep->buf + screen->column, size); p[offset + size] = '\0'; screen->killed_text = p; for (i = 0; i < screen->nterms; i++) orig_num[i] = get_logical_num_lines (linep, &screen->terms[i]); linep->len = screen->column; if (update) { for (i = 0; i < screen->nterms; i++) { new_num = get_logical_num_lines (linep, &screen->terms[i]); if (orig_num[i] != new_num) update_screen (screen, &screen->terms[i], screen->line, screen->column, 0, 1, ALL_LINES); else update_screen (screen, &screen->terms[i], screen->line, screen->column, 0, 0, SINGLE_LINE); } } } else if (screen->line + 1 < screen->num_lines) { p = grub_realloc (p, offset + 1 + 1); if (! p) return 0; p[offset] = '\n'; p[offset + 1] = '\0'; screen->killed_text = p; return delete_char (screen, update); } return 1; } static int yank (struct screen *screen, int update) { if (screen->killed_text) return insert_string (screen, screen->killed_text, update); return 1; } static int open_line (struct screen *screen, int update) { int saved_y[screen->nterms]; unsigned i; for (i = 0; i < screen->nterms; i++) saved_y[i] = screen->terms[i].y; if (! insert_string (screen, "\n", 0)) return 0; if (! backward_char (screen, 0)) return 0; for (i = 0; i < screen->nterms; i++) { screen->terms[i].y = saved_y[i]; screen->terms[i].y_line_start = screen->terms[i].y; } if (update) update_screen_all (screen, screen->line, screen->column, 0, 1, ALL_LINES); return 1; } /* A completion hook to print items. */ static void store_completion (const char *item, grub_completion_type_t type, int count __attribute__ ((unused))) { char *p; completion_type = type; /* Make sure that the completion buffer has enough room. */ if (completion_buffer.max_len < (completion_buffer.len + (int) grub_strlen (item) + 1 + 1)) { grub_size_t new_len; new_len = completion_buffer.len + grub_strlen (item) + 80; p = grub_realloc (completion_buffer.buf, new_len); if (! p) { /* Possibly not fatal. */ grub_errno = GRUB_ERR_NONE; return; } p[completion_buffer.len] = 0; completion_buffer.buf = p; completion_buffer.max_len = new_len; } p = completion_buffer.buf + completion_buffer.len; if (completion_buffer.len != 0) { *p++ = ' '; completion_buffer.len++; } grub_strcpy (p, item); completion_buffer.len += grub_strlen (item); } static int complete (struct screen *screen, int continuous, int update) { struct line *linep; int restore; char *insert; static int count = -1; unsigned i; grub_uint32_t *ucs4; grub_size_t buflen; grub_ssize_t ucs4len; char *u8; if (continuous) count++; else count = 0; completion_buffer.buf = 0; completion_buffer.len = 0; completion_buffer.max_len = 0; linep = screen->lines + screen->line; u8 = grub_ucs4_to_utf8_alloc (linep->buf, screen->column); if (!u8) return 1; insert = grub_normal_do_completion (u8, &restore, store_completion); if (completion_buffer.buf) { buflen = grub_strlen (completion_buffer.buf); ucs4 = grub_malloc (sizeof (grub_uint32_t) * (buflen + 1)); if (!ucs4) { grub_print_error (); grub_errno = GRUB_ERR_NONE; return 1; } ucs4len = grub_utf8_to_ucs4 (ucs4, buflen, (grub_uint8_t *) completion_buffer.buf, buflen, 0); ucs4[ucs4len] = 0; if (restore) for (i = 0; i < screen->nterms; i++) { int num_sections = ((completion_buffer.len + grub_term_width (screen->terms[i].term) - 8 - 1) / (grub_term_width (screen->terms[i].term) - 8)); grub_uint32_t *endp; grub_uint16_t pos; grub_uint32_t *p = ucs4; pos = grub_term_getxy (screen->terms[i].term); grub_term_gotoxy (screen->terms[i].term, 0, grub_term_height (screen->terms[i].term) - 3); screen->completion_shown = 1; grub_term_gotoxy (screen->terms[i].term, 0, grub_term_height (screen->terms[i].term) - 3); grub_puts_terminal (" ", screen->terms[i].term); switch (completion_type) { case GRUB_COMPLETION_TYPE_COMMAND: grub_puts_terminal (_("Possible commands are:"), screen->terms[i].term); break; case GRUB_COMPLETION_TYPE_DEVICE: grub_puts_terminal (_("Possible devices are:"), screen->terms[i].term); break; case GRUB_COMPLETION_TYPE_FILE: grub_puts_terminal (_("Possible files are:"), screen->terms[i].term); break; case GRUB_COMPLETION_TYPE_PARTITION: grub_puts_terminal (_("Possible partitions are:"), screen->terms[i].term); break; case GRUB_COMPLETION_TYPE_ARGUMENT: grub_puts_terminal (_("Possible arguments are:"), screen->terms[i].term); break; default: grub_puts_terminal (_("Possible things are:"), screen->terms[i].term); break; } grub_puts_terminal ("\n ", screen->terms[i].term); p += (count % num_sections) * (grub_term_width (screen->terms[i].term) - 8); endp = p + (grub_term_width (screen->terms[i].term) - 8); if (p != ucs4) grub_putcode (GRUB_UNICODE_LEFTARROW, screen->terms[i].term); else grub_putcode (' ', screen->terms[i].term); grub_print_ucs4 (p, ucs4 + ucs4len < endp ? ucs4 + ucs4len : endp, 0, 0, screen->terms[i].term); if (ucs4 + ucs4len > endp) grub_putcode (GRUB_UNICODE_RIGHTARROW, screen->terms[i].term); grub_term_gotoxy (screen->terms[i].term, pos >> 8, pos & 0xFF); } } if (insert) { insert_string (screen, insert, update); count = -1; grub_free (insert); } else if (update) grub_refresh (); grub_free (completion_buffer.buf); return 1; } /* Clear displayed completions. */ static void clear_completions (struct per_term_screen *term_screen) { grub_uint16_t pos; unsigned i, j; pos = grub_term_getxy (term_screen->term); grub_term_gotoxy (term_screen->term, 0, grub_term_height (term_screen->term) - 3); for (i = 0; i < 2; i++) { for (j = 0; j < grub_term_width (term_screen->term) - 1; j++) grub_putcode (' ', term_screen->term); grub_putcode ('\n', term_screen->term); } grub_term_gotoxy (term_screen->term, pos >> 8, pos & 0xFF); grub_term_refresh (term_screen->term); } static void clear_completions_all (struct screen *screen) { unsigned i; for (i = 0; i < screen->nterms; i++) clear_completions (&screen->terms[i]); } /* Execute the command list in the screen SCREEN. */ static int run (struct screen *screen) { char *script; int errs_before; grub_menu_t menu = NULL; char *dummy[1] = { NULL }; auto char * editor_getsource (void); char * editor_getsource (void) { int i; grub_size_t size = 0, tot_size = 0; char *source; for (i = 0; i < screen->num_lines; i++) tot_size += grub_get_num_of_utf8_bytes (screen->lines[i].buf, screen->lines[i].len) + 1; source = grub_malloc (tot_size + 1); if (! source) return NULL; for (i = 0; i < screen->num_lines; i++) { size += grub_ucs4_to_utf8 (screen->lines[i].buf, screen->lines[i].len, (grub_uint8_t *) source + size, tot_size - size); source[size++] = '\n'; } source[size] = '\0'; return source; } grub_cls (); grub_printf (" "); grub_printf_ (N_("Booting a command list")); grub_printf ("\n\n"); errs_before = grub_err_printed_errors; if (screen->submenu) { grub_env_context_open (); menu = grub_zalloc (sizeof (*menu)); if (! menu) return 0; grub_env_set_menu (menu); } /* Execute the script, line for line. */ script = editor_getsource (); if (! script) return 0; grub_script_execute_sourcecode (script, 0, dummy); grub_free (script); if (errs_before != grub_err_printed_errors) grub_wait_after_message (); if (grub_errno == GRUB_ERR_NONE && grub_loader_is_loaded ()) /* Implicit execution of boot, only if something is loaded. */ grub_command_execute ("boot", 0, 0); if (screen->submenu) { if (menu && menu->size) { grub_show_menu (menu, 1, 0); grub_normal_free_menu (menu); } grub_env_context_close (); } if (grub_errno != GRUB_ERR_NONE) { grub_print_error (); grub_errno = GRUB_ERR_NONE; grub_wait_after_message (); } return 1; } /* Edit a menu entry with an Emacs-like interface. */ void grub_menu_entry_run (grub_menu_entry_t entry) { struct screen *screen; int prev_c; grub_err_t err = GRUB_ERR_NONE; unsigned i; grub_term_output_t term; err = grub_auth_check_authentication (NULL); if (err) { grub_print_error (); grub_errno = GRUB_ERR_NONE; return; } screen = make_screen (entry); if (! screen) return; screen->terms = NULL; refresh: grub_free (screen->terms); screen->nterms = 0; FOR_ACTIVE_TERM_OUTPUTS(term) screen->nterms++; screen->terms = grub_malloc (screen->nterms * sizeof (screen->terms[0])); if (!screen->terms) { grub_print_error (); grub_errno = GRUB_ERR_NONE; return; } i = 0; FOR_ACTIVE_TERM_OUTPUTS(term) { screen->terms[i].term = term; screen->terms[i].x = 0; screen->terms[i].y = 0; screen->terms[i].y_line_start = screen->terms[i].y; i++; } /* Draw the screen. */ for (i = 0; i < screen->nterms; i++) grub_menu_init_page (0, 1, &screen->terms[i].num_entries, screen->terms[i].term); update_screen_all (screen, 0, 0, 1, 1, ALL_LINES); for (i = 0; i < screen->nterms; i++) grub_term_setcursor (screen->terms[i].term, 1); prev_c = '\0'; while (1) { int c = grub_getkey (); if (screen->completion_shown) { clear_completions_all (screen); screen->completion_shown = 0; } if (grub_normal_exit_level) { destroy_screen (screen); return; } switch (c) { case GRUB_TERM_KEY_UP: case GRUB_TERM_CTRL | 'p': if (! previous_line (screen, 1)) goto fail; break; case GRUB_TERM_CTRL | 'n': case GRUB_TERM_KEY_DOWN: if (! next_line (screen, 1)) goto fail; break; case GRUB_TERM_CTRL | 'f': case GRUB_TERM_KEY_RIGHT: if (! forward_char (screen, 1)) goto fail; break; case GRUB_TERM_CTRL | 'b': case GRUB_TERM_KEY_LEFT: if (! backward_char (screen, 1)) goto fail; break; case GRUB_TERM_CTRL | 'a': case GRUB_TERM_KEY_HOME: if (! beginning_of_line (screen, 1)) goto fail; break; case GRUB_TERM_CTRL | 'e': case GRUB_TERM_KEY_END: if (! end_of_line (screen, 1)) goto fail; break; case GRUB_TERM_CTRL | 'i': case '\t': if (! complete (screen, prev_c == c, 1)) goto fail; break; case GRUB_TERM_CTRL | 'd': case GRUB_TERM_KEY_DC: if (! delete_char (screen, 1)) goto fail; break; case GRUB_TERM_CTRL | 'h': case '\b': if (! backward_delete_char (screen, 1)) goto fail; break; case GRUB_TERM_CTRL | 'k': if (! kill_line (screen, prev_c == c, 1)) goto fail; break; case GRUB_TERM_CTRL | 'u': /* FIXME: What behavior is good for this key? */ break; case GRUB_TERM_CTRL | 'y': if (! yank (screen, 1)) goto fail; break; case GRUB_TERM_CTRL | 'l': /* FIXME: centering. */ goto refresh; case GRUB_TERM_CTRL | 'o': if (! open_line (screen, 1)) goto fail; break; case '\n': case '\r': if (! insert_string (screen, "\n", 1)) goto fail; break; case '\e': destroy_screen (screen); return; case GRUB_TERM_CTRL | 'c': case GRUB_TERM_KEY_F2: grub_cmdline_run (1); goto refresh; case GRUB_TERM_CTRL | 'x': case GRUB_TERM_KEY_F10: run (screen); goto refresh; case GRUB_TERM_CTRL | 'r': case GRUB_TERM_CTRL | 's': case GRUB_TERM_CTRL | 't': /* FIXME */ break; default: if (grub_isprint (c)) { char buf[2]; buf[0] = c; buf[1] = '\0'; if (! insert_string (screen, buf, 1)) goto fail; } break; } prev_c = c; } fail: destroy_screen (screen); grub_cls (); grub_print_error (); grub_errno = GRUB_ERR_NONE; grub_xputs ("\n"); grub_printf_ (N_("Press any key to continue...")); (void) grub_getkey (); }