/* * GRUB -- GRand Unified Bootloader * Copyright (C) 1999,2000,2001,2002,2003,2004,2005,2006,2007,2008,2009 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 . */ /* Convert a (possibly null-terminated) UTF-8 string of at most SRCSIZE bytes (if SRCSIZE is -1, it is ignored) in length to a UTF-16 string. Return the number of characters converted. DEST must be able to hold at least DESTSIZE characters. If an invalid sequence is found, return -1. If SRCEND is not NULL, then *SRCEND is set to the next byte after the last byte used in SRC. */ #include #include #include #include #include #include #ifdef HAVE_UNIFONT_WIDTHSPEC #include "widthspec.h" #endif grub_ssize_t grub_utf8_to_utf16 (grub_uint16_t *dest, grub_size_t destsize, const grub_uint8_t *src, grub_size_t srcsize, const grub_uint8_t **srcend) { grub_uint16_t *p = dest; int count = 0; grub_uint32_t code = 0; if (srcend) *srcend = src; while (srcsize && destsize) { grub_uint32_t c = *src++; if (srcsize != (grub_size_t)-1) srcsize--; if (count) { if ((c & GRUB_UINT8_2_LEADINGBITS) != GRUB_UINT8_1_LEADINGBIT) { /* invalid */ return -1; } else { code <<= 6; code |= (c & GRUB_UINT8_6_TRAILINGBITS); count--; } } else { if (c == 0) break; if ((c & GRUB_UINT8_1_LEADINGBIT) == 0) code = c; else if ((c & GRUB_UINT8_3_LEADINGBITS) == GRUB_UINT8_2_LEADINGBITS) { count = 1; code = c & GRUB_UINT8_5_TRAILINGBITS; } else if ((c & GRUB_UINT8_4_LEADINGBITS) == GRUB_UINT8_3_LEADINGBITS) { count = 2; code = c & GRUB_UINT8_4_TRAILINGBITS; } else if ((c & GRUB_UINT8_5_LEADINGBITS) == GRUB_UINT8_4_LEADINGBITS) { count = 3; code = c & GRUB_UINT8_3_TRAILINGBITS; } else if ((c & GRUB_UINT8_6_LEADINGBITS) == GRUB_UINT8_5_LEADINGBITS) { count = 4; code = c & GRUB_UINT8_2_TRAILINGBITS; } else if ((c & GRUB_UINT8_7_LEADINGBITS) == GRUB_UINT8_6_LEADINGBITS) { count = 5; code = c & GRUB_UINT8_1_TRAILINGBIT; } else return -1; } if (count == 0) { if (destsize < 2 && code >= GRUB_UCS2_LIMIT) break; if (code >= GRUB_UCS2_LIMIT) { *p++ = GRUB_UTF16_UPPER_SURROGATE (code); *p++ = GRUB_UTF16_LOWER_SURROGATE (code); destsize -= 2; } else { *p++ = code; destsize--; } } } if (srcend) *srcend = src; return p - dest; } /* Convert UCS-4 to UTF-8. */ void grub_ucs4_to_utf8 (grub_uint32_t *src, grub_size_t size, grub_uint8_t *dest, grub_size_t destsize) { /* Keep last char for \0. */ grub_uint8_t *destend = dest + destsize - 1; while (size-- && dest < destend) { grub_uint32_t code = *src++; if (code <= 0x007F) *dest++ = code; else if (code <= 0x07FF) { if (dest + 1 >= destend) break; *dest++ = (code >> 6) | 0xC0; *dest++ = (code & 0x3F) | 0x80; } else if ((code >= 0xDC00 && code <= 0xDFFF) || (code >= 0xD800 && code <= 0xDBFF)) { /* No surrogates in UCS-4... */ *dest++ = '?'; } else { if (dest + 2 >= destend) break; *dest++ = (code >> 12) | 0xE0; *dest++ = ((code >> 6) & 0x3F) | 0x80; *dest++ = (code & 0x3F) | 0x80; } } *dest = 0; } /* Convert UCS-4 to UTF-8. */ char * grub_ucs4_to_utf8_alloc (grub_uint32_t *src, grub_size_t size) { grub_size_t remaining; grub_uint32_t *ptr; grub_size_t cnt = 0; grub_uint8_t *ret; remaining = size; ptr = src; while (remaining--) { grub_uint32_t code = *ptr++; if (code <= 0x007F) cnt++; else if (code <= 0x07FF) cnt += 2; else if ((code >= 0xDC00 && code <= 0xDFFF) || (code >= 0xD800 && code <= 0xDBFF)) /* No surrogates in UCS-4... */ cnt++; else cnt += 3; } cnt++; ret = grub_malloc (cnt); if (!ret) return 0; grub_ucs4_to_utf8 (src, size, ret, cnt); return (char *) ret; } int grub_is_valid_utf8 (const grub_uint8_t *src, grub_size_t srcsize) { grub_uint32_t code = 0; int count = 0; while (srcsize) { grub_uint32_t c = *src++; if (srcsize != (grub_size_t)-1) srcsize--; if (count) { if ((c & 0xc0) != 0x80) { /* invalid */ return 0; } else { code <<= 6; code |= (c & 0x3f); count--; } } else { if (c == 0) break; if ((c & 0x80) == 0x00) code = c; else if ((c & 0xe0) == 0xc0) { count = 1; code = c & 0x1f; } else if ((c & 0xf0) == 0xe0) { count = 2; code = c & 0x0f; } else if ((c & 0xf8) == 0xf0) { count = 3; code = c & 0x07; } else if ((c & 0xfc) == 0xf8) { count = 4; code = c & 0x03; } else if ((c & 0xfe) == 0xfc) { count = 5; code = c & 0x01; } else return 0; } } return 1; } int grub_utf8_to_ucs4_alloc (const char *msg, grub_uint32_t **unicode_msg, grub_uint32_t **last_position) { grub_size_t msg_len = grub_strlen (msg); *unicode_msg = grub_malloc (grub_strlen (msg) * sizeof (grub_uint32_t)); if (!*unicode_msg) { grub_printf ("utf8_to_ucs4 ERROR1: %s", msg); return -1; } msg_len = grub_utf8_to_ucs4 (*unicode_msg, msg_len, (grub_uint8_t *) msg, -1, 0); *last_position = *unicode_msg + msg_len; return msg_len; } /* Convert a (possibly null-terminated) UTF-8 string of at most SRCSIZE bytes (if SRCSIZE is -1, it is ignored) in length to a UCS-4 string. Return the number of characters converted. DEST must be able to hold at least DESTSIZE characters. If SRCEND is not NULL, then *SRCEND is set to the next byte after the last byte used in SRC. */ grub_size_t grub_utf8_to_ucs4 (grub_uint32_t *dest, grub_size_t destsize, const grub_uint8_t *src, grub_size_t srcsize, const grub_uint8_t **srcend) { grub_uint32_t *p = dest; int count = 0; grub_uint32_t code = 0; if (srcend) *srcend = src; while (srcsize && destsize) { grub_uint32_t c = *src++; if (srcsize != (grub_size_t)-1) srcsize--; if (count) { if ((c & 0xc0) != 0x80) { /* invalid */ code = '?'; /* Character c may be valid, don't eat it. */ src--; if (srcsize != (grub_size_t)-1) srcsize++; count = 0; } else { code <<= 6; code |= (c & 0x3f); count--; } } else { if (c == 0) break; if ((c & 0x80) == 0x00) code = c; else if ((c & 0xe0) == 0xc0) { count = 1; code = c & 0x1f; } else if ((c & 0xf0) == 0xe0) { count = 2; code = c & 0x0f; } else if ((c & 0xf8) == 0xf0) { count = 3; code = c & 0x07; } else if ((c & 0xfc) == 0xf8) { count = 4; code = c & 0x03; } else if ((c & 0xfe) == 0xfc) { count = 5; code = c & 0x01; } else { /* invalid */ code = '?'; count = 0; } } if (count == 0) { *p++ = code; destsize--; } } if (srcend) *srcend = src; return p - dest; } static grub_uint8_t *bidi_types = NULL; static void unpack_bidi (void) { unsigned i; struct grub_unicode_compact_range *cur; bidi_types = grub_zalloc (GRUB_UNICODE_MAX_CACHED_CHAR); if (!bidi_types) { grub_errno = GRUB_ERR_NONE; return; } for (cur = grub_unicode_compact; cur->end; cur++) for (i = cur->start; i <= cur->end && i < GRUB_UNICODE_MAX_CACHED_CHAR; i++) if (cur->bidi_mirror) bidi_types[i] = cur->bidi_type | 0x80; else bidi_types[i] = cur->bidi_type | 0x00; } static inline enum grub_bidi_type get_bidi_type (grub_uint32_t c) { struct grub_unicode_compact_range *cur; if (!bidi_types) unpack_bidi (); if (bidi_types && c < GRUB_UNICODE_MAX_CACHED_CHAR) return bidi_types[c] & 0x7f; for (cur = grub_unicode_compact; cur->end; cur++) if (cur->start <= c && c <= cur->end) return cur->bidi_type; return GRUB_BIDI_TYPE_L; } static inline int is_mirrored (grub_uint32_t c) { struct grub_unicode_compact_range *cur; if (!bidi_types) unpack_bidi (); if (bidi_types && c < GRUB_UNICODE_MAX_CACHED_CHAR) return !!(bidi_types[c] & 0x80); for (cur = grub_unicode_compact; cur->end; cur++) if (cur->start <= c && c <= cur->end) return cur->bidi_mirror; return 0; } enum grub_comb_type grub_unicode_get_comb_type (grub_uint32_t c) { static grub_uint8_t *comb_types = NULL; struct grub_unicode_compact_range *cur; if (!comb_types) { unsigned i; comb_types = grub_zalloc (GRUB_UNICODE_MAX_CACHED_CHAR); if (comb_types) for (cur = grub_unicode_compact; cur->end; cur++) for (i = cur->start; i <= cur->end && i < GRUB_UNICODE_MAX_CACHED_CHAR; i++) comb_types[i] = cur->comb_type; else grub_errno = GRUB_ERR_NONE; } if (comb_types && c < GRUB_UNICODE_MAX_CACHED_CHAR) return comb_types[c]; for (cur = grub_unicode_compact; cur->end; cur++) if (cur->start <= c && c <= cur->end) return cur->comb_type; return GRUB_UNICODE_COMB_NONE; } #ifdef HAVE_UNIFONT_WIDTHSPEC grub_ssize_t grub_unicode_estimate_width (const struct grub_unicode_glyph *c) { if (grub_unicode_get_comb_type (c->base)) return 0; if (widthspec[c->base >> 3] & (1 << (c->base & 7))) return 2; else return 1; } #endif grub_size_t grub_unicode_aglomerate_comb (const grub_uint32_t *in, grub_size_t inlen, struct grub_unicode_glyph *out) { int haveout = 0; const grub_uint32_t *ptr; unsigned last_comb_pointer = 0; grub_memset (out, 0, sizeof (*out)); for (ptr = in; ptr < in + inlen; ptr++) { /* Variation selectors >= 17 are outside of BMP and SMP. Handle variation selectors first to avoid potentially costly lookups. */ if (*ptr >= GRUB_UNICODE_VARIATION_SELECTOR_1 && *ptr <= GRUB_UNICODE_VARIATION_SELECTOR_16) { if (haveout) out->variant = *ptr - GRUB_UNICODE_VARIATION_SELECTOR_1 + 1; continue; } if (*ptr >= GRUB_UNICODE_VARIATION_SELECTOR_17 && *ptr <= GRUB_UNICODE_VARIATION_SELECTOR_256) { if (haveout) out->variant = *ptr - GRUB_UNICODE_VARIATION_SELECTOR_17 + 17; continue; } enum grub_comb_type comb_type; comb_type = grub_unicode_get_comb_type (*ptr); if (comb_type) { struct grub_unicode_combining *n; unsigned j; if (!haveout) continue; if (comb_type == GRUB_UNICODE_COMB_MC || comb_type == GRUB_UNICODE_COMB_ME || comb_type == GRUB_UNICODE_COMB_MN) last_comb_pointer = out->ncomb; n = grub_realloc (out->combining, sizeof (n[0]) * (out->ncomb + 1)); if (!n) { grub_errno = GRUB_ERR_NONE; continue; } for (j = last_comb_pointer; j < out->ncomb; j++) if (out->combining[j].type > comb_type) break; grub_memmove (out->combining + j + 1, out->combining + j, (out->ncomb - j) * sizeof (out->combining[0])); out->combining = n; out->combining[j].code = *ptr; out->combining[j].type = comb_type; out->ncomb++; continue; } if (haveout) return ptr - in; haveout = 1; out->base = *ptr; out->variant = 0; out->attributes = 0; out->ncomb = 0; out->estimated_width = 1; out->combining = NULL; } return ptr - in; } static grub_ssize_t bidi_line_wrap (struct grub_unicode_glyph *visual_out, struct grub_unicode_glyph *visual, grub_size_t visual_len, unsigned *levels, grub_ssize_t (*getcharwidth) (const struct grub_unicode_glyph *visual), grub_size_t maxwidth, grub_size_t startwidth) { struct grub_unicode_glyph *outptr = visual_out; unsigned line_start = 0; grub_ssize_t line_width = startwidth; unsigned k; grub_ssize_t last_space = -1; grub_ssize_t last_space_width = 0; auto void revert (unsigned start, unsigned end); void revert (unsigned start, unsigned end) { struct grub_unicode_glyph t; unsigned i, tl; for (i = 0; i <= (end - start) / 2; i++) { t = visual[start + i]; visual[start + i] = visual[end - i]; visual[end - i] = t; tl = levels[start + i]; levels[start + i] = levels[end - i]; levels[end - i] = tl; } } if (!visual_len) return 0; for (k = 0; k <= visual_len; k++) { grub_ssize_t last_width = 0; if (getcharwidth && k != visual_len) line_width += last_width = getcharwidth (&visual[k]); if (k != visual_len && visual[k].base == ' ') { last_space = k; last_space_width = line_width; } if (((grub_ssize_t) maxwidth > 0 && line_width > (grub_ssize_t) maxwidth) || k == visual_len) { unsigned min_odd_level = 0xffffffff; unsigned max_level = 0; unsigned j; unsigned i; if (k != visual_len && last_space > (signed) line_start) k = last_space; else if (k != visual_len && line_start == 0 && startwidth != 0) { k = 0; last_space_width = startwidth; } else last_space_width = line_width - last_width; for (i = line_start; i < k; i++) { if (levels[i] > max_level) max_level = levels[i]; if (levels[i] < min_odd_level && (levels[i] & 1)) min_odd_level = levels[i]; } /* FIXME: can be optimized. */ for (j = max_level; j >= min_odd_level; j--) { unsigned in = 0; for (i = line_start; i < k; i++) { if (i != line_start && levels[i] >= j && levels[i-1] < j) in = i; if (levels[i] >= j && (i + 1 == k || levels[i+1] < j)) revert (in, i); } } for (i = line_start; i < k; i++) if (is_mirrored (visual[i].base) && levels[i]) visual[i].attributes |= GRUB_UNICODE_GLYPH_ATTRIBUTE_MIRROR; grub_memcpy (outptr, &visual[line_start], (k - line_start) * sizeof (visual[0])); outptr += k - line_start; if (k != visual_len) { grub_memset (outptr, 0, sizeof (visual[0])); outptr->base = '\n'; outptr++; } if ((signed) k == last_space) k++; line_start = k; line_width -= last_space_width; } } return outptr - visual_out; } static grub_ssize_t grub_bidi_line_logical_to_visual (const grub_uint32_t *logical, grub_size_t logical_len, struct grub_unicode_glyph *visual_out, grub_ssize_t (*getcharwidth) (const struct grub_unicode_glyph *visual), grub_size_t maxwidth, grub_size_t startwidth) { enum grub_bidi_type type = GRUB_BIDI_TYPE_L; enum override_status {OVERRIDE_NEUTRAL = 0, OVERRIDE_R, OVERRIDE_L}; unsigned *levels; enum grub_bidi_type *resolved_types; unsigned base_level; enum override_status cur_override; unsigned i; unsigned stack_level[GRUB_BIDI_MAX_EXPLICIT_LEVEL + 3]; enum override_status stack_override[GRUB_BIDI_MAX_EXPLICIT_LEVEL + 3]; unsigned stack_depth = 0; unsigned invalid_pushes = 0; unsigned visual_len = 0; unsigned run_start, run_end; struct grub_unicode_glyph *visual; unsigned cur_level; auto void push_stack (unsigned new_override, unsigned new_level); void push_stack (unsigned new_override, unsigned new_level) { if (new_level > GRUB_BIDI_MAX_EXPLICIT_LEVEL) { invalid_pushes++; return; } stack_level[stack_depth] = cur_level; stack_override[stack_depth] = cur_override; stack_depth++; cur_level = new_level; cur_override = new_override; } auto void pop_stack (void); void pop_stack (void) { if (invalid_pushes) { invalid_pushes--; return; } if (!stack_depth) return; stack_depth--; cur_level = stack_level[stack_depth]; cur_override = stack_override[stack_depth]; } levels = grub_malloc (sizeof (levels[0]) * logical_len); if (!levels) return -1; resolved_types = grub_malloc (sizeof (resolved_types[0]) * logical_len); if (!resolved_types) { grub_free (levels); return -1; } visual = grub_malloc (sizeof (visual[0]) * logical_len); if (!visual) { grub_free (resolved_types); grub_free (levels); return -1; } for (i = 0; i < logical_len; i++) { type = get_bidi_type (logical[i]); if (type == GRUB_BIDI_TYPE_L || type == GRUB_BIDI_TYPE_AL || type == GRUB_BIDI_TYPE_R) break; } if (type == GRUB_BIDI_TYPE_R || type == GRUB_BIDI_TYPE_AL) base_level = 1; else base_level = 0; cur_level = base_level; cur_override = OVERRIDE_NEUTRAL; { const grub_uint32_t *lptr; for (lptr = logical; lptr < logical + logical_len;) { grub_size_t p = grub_unicode_aglomerate_comb (lptr, logical + logical_len - lptr, &visual[visual_len]); type = get_bidi_type (visual[visual_len].base); switch (type) { case GRUB_BIDI_TYPE_RLE: push_stack (cur_override, (cur_level | 1) + 1); break; case GRUB_BIDI_TYPE_RLO: push_stack (OVERRIDE_R, (cur_level | 1) + 1); break; case GRUB_BIDI_TYPE_LRE: push_stack (cur_override, (cur_level & ~1) + 2); break; case GRUB_BIDI_TYPE_LRO: push_stack (OVERRIDE_L, (cur_level & ~1) + 2); break; case GRUB_BIDI_TYPE_PDF: pop_stack (); break; case GRUB_BIDI_TYPE_BN: break; default: { levels[visual_len] = cur_level; if (cur_override != OVERRIDE_NEUTRAL) resolved_types[visual_len] = (cur_override == OVERRIDE_L) ? GRUB_BIDI_TYPE_L : GRUB_BIDI_TYPE_R; else resolved_types[visual_len] = type; visual_len++; } } lptr += p; } } for (run_start = 0; run_start < visual_len; run_start = run_end) { unsigned prev_level, next_level, cur_run_level; unsigned last_type, last_strong_type; for (run_end = run_start; run_end < visual_len && levels[run_end] == levels[run_start]; run_end++); if (run_start == 0) prev_level = base_level; else prev_level = levels[run_start - 1]; if (run_end == visual_len) next_level = base_level; else next_level = levels[run_end]; cur_run_level = levels[run_start]; if (prev_level & 1) last_type = GRUB_BIDI_TYPE_R; else last_type = GRUB_BIDI_TYPE_L; last_strong_type = last_type; for (i = run_start; i < run_end; i++) { switch (resolved_types[i]) { case GRUB_BIDI_TYPE_NSM: resolved_types[i] = last_type; break; case GRUB_BIDI_TYPE_EN: if (last_strong_type == GRUB_BIDI_TYPE_AL) resolved_types[i] = GRUB_BIDI_TYPE_AN; break; case GRUB_BIDI_TYPE_L: case GRUB_BIDI_TYPE_R: last_strong_type = resolved_types[i]; break; case GRUB_BIDI_TYPE_ES: if (last_type == GRUB_BIDI_TYPE_EN && i + 1 < run_end && resolved_types[i + 1] == GRUB_BIDI_TYPE_EN) resolved_types[i] = GRUB_BIDI_TYPE_EN; else resolved_types[i] = GRUB_BIDI_TYPE_ON; break; case GRUB_BIDI_TYPE_ET: { unsigned j; if (last_type == GRUB_BIDI_TYPE_EN) { resolved_types[i] = GRUB_BIDI_TYPE_EN; break; } for (j = i; j < run_end && resolved_types[j] == GRUB_BIDI_TYPE_ET; j++); if (j != run_end && resolved_types[j] == GRUB_BIDI_TYPE_EN) { for (; i < run_end && resolved_types[i] == GRUB_BIDI_TYPE_ET; i++) resolved_types[i] = GRUB_BIDI_TYPE_EN; i--; break; } for (; i < run_end && resolved_types[i] == GRUB_BIDI_TYPE_ET; i++) resolved_types[i] = GRUB_BIDI_TYPE_ON; i--; break; } break; case GRUB_BIDI_TYPE_CS: if (last_type == GRUB_BIDI_TYPE_EN && i + 1 < run_end && resolved_types[i + 1] == GRUB_BIDI_TYPE_EN) { resolved_types[i] = GRUB_BIDI_TYPE_EN; break; } if (last_type == GRUB_BIDI_TYPE_AN && i + 1 < run_end && (resolved_types[i + 1] == GRUB_BIDI_TYPE_AN || (resolved_types[i + 1] == GRUB_BIDI_TYPE_EN && last_strong_type == GRUB_BIDI_TYPE_AL))) { resolved_types[i] = GRUB_BIDI_TYPE_EN; break; } resolved_types[i] = GRUB_BIDI_TYPE_ON; break; case GRUB_BIDI_TYPE_AL: last_strong_type = resolved_types[i]; resolved_types[i] = GRUB_BIDI_TYPE_R; break; default: /* Make GCC happy. */ break; } last_type = resolved_types[i]; if (resolved_types[i] == GRUB_BIDI_TYPE_EN && last_strong_type == GRUB_BIDI_TYPE_L) resolved_types[i] = GRUB_BIDI_TYPE_L; } if (prev_level & 1) last_type = GRUB_BIDI_TYPE_R; else last_type = GRUB_BIDI_TYPE_L; for (i = run_start; i < run_end; ) { unsigned j; unsigned next_type; for (j = i; j < run_end && (resolved_types[j] == GRUB_BIDI_TYPE_B || resolved_types[j] == GRUB_BIDI_TYPE_S || resolved_types[j] == GRUB_BIDI_TYPE_WS || resolved_types[j] == GRUB_BIDI_TYPE_ON); j++); if (j == i) { if (resolved_types[i] == GRUB_BIDI_TYPE_L) last_type = GRUB_BIDI_TYPE_L; else last_type = GRUB_BIDI_TYPE_R; i++; continue; } if (j == run_end) next_type = (next_level & 1) ? GRUB_BIDI_TYPE_R : GRUB_BIDI_TYPE_L; else { if (resolved_types[j] == GRUB_BIDI_TYPE_L) next_type = GRUB_BIDI_TYPE_L; else next_type = GRUB_BIDI_TYPE_R; } if (next_type == last_type) for (; i < j; i++) resolved_types[i] = last_type; else for (; i < j; i++) resolved_types[i] = (cur_run_level & 1) ? GRUB_BIDI_TYPE_R : GRUB_BIDI_TYPE_L; } } for (i = 0; i < visual_len; i++) { if (!(levels[i] & 1) && resolved_types[i] == GRUB_BIDI_TYPE_R) { levels[i]++; continue; } if (!(levels[i] & 1) && (resolved_types[i] == GRUB_BIDI_TYPE_AN || resolved_types[i] == GRUB_BIDI_TYPE_EN)) { levels[i] += 2; continue; } if ((levels[i] & 1) && (resolved_types[i] == GRUB_BIDI_TYPE_L || resolved_types[i] == GRUB_BIDI_TYPE_AN || resolved_types[i] == GRUB_BIDI_TYPE_EN)) { levels[i]++; continue; } } grub_free (resolved_types); { grub_ssize_t ret; ret = bidi_line_wrap (visual_out, visual, visual_len, levels, getcharwidth, maxwidth, startwidth); grub_free (levels); grub_free (visual); return ret; } } grub_ssize_t grub_bidi_logical_to_visual (const grub_uint32_t *logical, grub_size_t logical_len, struct grub_unicode_glyph **visual_out, grub_ssize_t (*getcharwidth) (const struct grub_unicode_glyph *visual), grub_size_t max_length, grub_size_t startwidth) { const grub_uint32_t *line_start = logical, *ptr; struct grub_unicode_glyph *visual_ptr; *visual_out = visual_ptr = grub_malloc (2 * sizeof (visual_ptr[0]) * logical_len); for (ptr = logical; ptr <= logical + logical_len; ptr++) { if (ptr == logical + logical_len || *ptr == '\n') { grub_ssize_t ret; ret = grub_bidi_line_logical_to_visual (line_start, ptr - line_start, visual_ptr, getcharwidth, max_length, startwidth); startwidth = 0; if (ret < 0) { grub_free (*visual_out); return ret; } visual_ptr += ret; line_start = ptr; if (ptr != logical + logical_len) { grub_memset (visual_ptr, 0, sizeof (visual_ptr[0])); visual_ptr->base = '\n'; visual_ptr++; line_start++; } } } return visual_ptr - *visual_out; } static grub_uint32_t map_code (grub_uint32_t in, struct grub_term_output *term) { if (in <= 0x7f) return in; switch (term->flags & GRUB_TERM_CODE_TYPE_MASK) { case GRUB_TERM_CODE_TYPE_VGA: switch (in) { case GRUB_TERM_DISP_LEFT: return 0x1b; case GRUB_TERM_DISP_UP: return 0x18; case GRUB_TERM_DISP_RIGHT: return 0x1a; case GRUB_TERM_DISP_DOWN: return 0x19; case GRUB_TERM_DISP_HLINE: return 0xc4; case GRUB_TERM_DISP_VLINE: return 0xb3; case GRUB_TERM_DISP_UL: return 0xda; case GRUB_TERM_DISP_UR: return 0xbf; case GRUB_TERM_DISP_LL: return 0xc0; case GRUB_TERM_DISP_LR: return 0xd9; } return '?'; case GRUB_TERM_CODE_TYPE_ASCII: /* Better than nothing. */ switch (in) { case GRUB_TERM_DISP_LEFT: return '<'; case GRUB_TERM_DISP_UP: return '^'; case GRUB_TERM_DISP_RIGHT: return '>'; case GRUB_TERM_DISP_DOWN: return 'v'; case GRUB_TERM_DISP_HLINE: return '-'; case GRUB_TERM_DISP_VLINE: return '|'; case GRUB_TERM_DISP_UL: case GRUB_TERM_DISP_UR: case GRUB_TERM_DISP_LL: case GRUB_TERM_DISP_LR: return '+'; } return '?'; } return in; } static void putglyph (const struct grub_unicode_glyph *c, struct grub_term_output *term) { struct grub_unicode_glyph c2 = { .variant = 0, .attributes = 0, .ncomb = 0, .combining = 0, .estimated_width = 1 }; if (c->base == '\t' && term->getxy) { int n; n = 8 - ((term->getxy () >> 8) & 7); c2.base = ' '; while (n--) (term->putchar) (&c2); return; } if ((term->flags & GRUB_TERM_CODE_TYPE_MASK) == GRUB_TERM_CODE_TYPE_UTF8_LOGICAL || (term->flags & GRUB_TERM_CODE_TYPE_MASK) == GRUB_TERM_CODE_TYPE_UTF8_VISUAL) { int i; c2.estimated_width = grub_term_getcharwidth (term, c); for (i = -1; i < (int) c->ncomb; i++) { grub_uint8_t u8[20], *ptr; grub_uint32_t code; if (i == -1) code = c->base; else code = c->combining[i].code; grub_ucs4_to_utf8 (&code, 1, u8, sizeof (u8)); for (ptr = u8; *ptr; ptr++) { c2.base = *ptr; (term->putchar) (&c2); c2.estimated_width = 0; } } c2.estimated_width = 1; } else (term->putchar) (c); if (c->base == '\n') { c2.base = '\r'; (term->putchar) (&c2); } } static void putcode_real (grub_uint32_t code, struct grub_term_output *term) { struct grub_unicode_glyph c = { .variant = 0, .attributes = 0, .ncomb = 0, .combining = 0, .estimated_width = 1 }; c.base = map_code (code, term); putglyph (&c, term); } /* Put a Unicode character. */ void grub_putcode (grub_uint32_t code, struct grub_term_output *term) { /* Combining character by itself? */ if (grub_unicode_get_comb_type (code) != GRUB_UNICODE_COMB_NONE) return; putcode_real (code, term); } void grub_print_ucs4 (const grub_uint32_t * str, const grub_uint32_t * last_position, int margin_left, int margin_right, struct grub_term_output *term) { grub_ssize_t max_width; grub_ssize_t startwidth; { struct grub_unicode_glyph space_glyph = { .base = ' ', .variant = 0, .attributes = 0, .ncomb = 0, .combining = 0 }; max_width = grub_term_width (term) - grub_term_getcharwidth (term, &space_glyph) * (margin_left + margin_right) - 1; } if (((term->getxy () >> 8) & 0xff) < margin_left) grub_print_spaces (term, margin_left - ((term->getxy () >> 8) & 0xff)); startwidth = ((term->getxy () >> 8) & 0xff) - margin_left; if ((term->flags & GRUB_TERM_CODE_TYPE_MASK) == GRUB_TERM_CODE_TYPE_VISUAL_GLYPHS || (term->flags & GRUB_TERM_CODE_TYPE_MASK) == GRUB_TERM_CODE_TYPE_UTF8_VISUAL) { grub_ssize_t visual_len; struct grub_unicode_glyph *visual; struct grub_unicode_glyph *visual_ptr; auto grub_ssize_t getcharwidth (const struct grub_unicode_glyph *c); grub_ssize_t getcharwidth (const struct grub_unicode_glyph *c) { return grub_term_getcharwidth (term, c); } visual_len = grub_bidi_logical_to_visual (str, last_position - str, &visual, getcharwidth, max_width, startwidth); if (visual_len < 0) { grub_print_error (); return; } for (visual_ptr = visual; visual_ptr < visual + visual_len; visual_ptr++) { if (visual_ptr->base == '\n') grub_print_spaces (term, margin_right); putglyph (visual_ptr, term); if (visual_ptr->base == '\n') grub_print_spaces (term, margin_left); grub_free (visual_ptr->combining); } grub_free (visual); return; } { const grub_uint32_t *ptr; grub_ssize_t line_width = startwidth; grub_ssize_t lastspacewidth = 0; const grub_uint32_t *line_start = str, *last_space = str - 1; for (ptr = str; ptr < last_position; ptr++) { grub_ssize_t last_width = 0; if (grub_unicode_get_comb_type (*ptr) == GRUB_UNICODE_COMB_NONE) { struct grub_unicode_glyph c = { .variant = 0, .attributes = 0, .ncomb = 0, .combining = 0 }; c.base = *ptr; line_width += last_width = grub_term_getcharwidth (term, &c); } if (*ptr == ' ') { lastspacewidth = line_width; last_space = ptr; } if (line_width > max_width || *ptr == '\n') { const grub_uint32_t *ptr2; if (line_width > max_width && last_space > line_start) ptr = last_space; else if (line_width > max_width && line_start == str && startwidth != 0) { ptr = str; lastspacewidth = startwidth; } else lastspacewidth = line_width - last_width; for (ptr2 = line_start; ptr2 < ptr; ptr2++) { /* Skip combining characters on non-UTF8 terminals. */ if ((term->flags & GRUB_TERM_CODE_TYPE_MASK) != GRUB_TERM_CODE_TYPE_UTF8_LOGICAL && grub_unicode_get_comb_type (*ptr2) != GRUB_UNICODE_COMB_NONE) continue; putcode_real (*ptr2, term); } grub_print_spaces (term, margin_right); grub_putcode ('\n', term); line_width -= lastspacewidth; grub_print_spaces (term, margin_left); if (ptr == last_space || *ptr == '\n') ptr++; line_start = ptr; } } { const grub_uint32_t *ptr2; for (ptr2 = line_start; ptr2 < last_position; ptr2++) { /* Skip combining characters on non-UTF8 terminals. */ if ((term->flags & GRUB_TERM_CODE_TYPE_MASK) != GRUB_TERM_CODE_TYPE_UTF8_LOGICAL && grub_unicode_get_comb_type (*ptr2) != GRUB_UNICODE_COMB_NONE) continue; putcode_real (*ptr2, term); } } } } void grub_xputs_normal (const char *str) { grub_term_output_t term; FOR_ACTIVE_TERM_OUTPUTS(term) { grub_uint32_t *unicode_str, *unicode_last_position; grub_utf8_to_ucs4_alloc (str, &unicode_str, &unicode_last_position); grub_print_ucs4 (unicode_str, unicode_last_position, 0, 0, term); grub_free (unicode_str); } }