/* $OpenBSD$ */ /* * Copyright (c) 2008 Nicholas Marriott * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF MIND, USE, DATA OR PROFITS, WHETHER * IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING * OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include "tmux.h" static int utf8_width(wchar_t); struct utf8_big_item { u_int index; RB_ENTRY(utf8_big_item) entry; char data[UTF8_SIZE]; u_char size; }; RB_HEAD(utf8_big_tree, utf8_big_item); static int utf8_big_cmp(struct utf8_big_item *bi1, struct utf8_big_item *bi2) { if (bi1->size < bi2->size) return (-1); if (bi1->size > bi2->size) return (1); return (memcmp(bi1->data, bi2->data, bi1->size)); } RB_GENERATE_STATIC(utf8_big_tree, utf8_big_item, entry, utf8_big_cmp); static struct utf8_big_tree utf8_big_tree = RB_INITIALIZER(utf8_big_tree); static struct utf8_big_item *utf8_big_list; static u_int utf8_big_list_size; static u_int utf8_big_list_used; union utf8_big_map { u_int value; struct { u_char flags; #define UTF8_BIG_SIZE 0x1f #define UTF8_BIG_WIDTH2 0x20 u_char data[3]; }; } __packed; static const union utf8_big_map utf8_big_space1 = { .flags = 1, .data = " " }; static const union utf8_big_map utf8_big_space2 = { .flags = UTF8_BIG_WIDTH2|2, .data = " " }; /* Get a big item by index. */ static struct utf8_big_item * utf8_get_big_item(const char *data, size_t size) { struct utf8_big_item bi; memcpy(bi.data, data, size); bi.size = size; return (RB_FIND(utf8_big_tree, &utf8_big_tree, &bi)); } /* Add a big item. */ static int utf8_put_big_item(const char *data, size_t size, u_int *index) { struct utf8_big_item *bi; bi = utf8_get_big_item(data, size); if (bi != NULL) { *index = bi->index; log_debug("%s: have %.*s at %u", __func__, (int)size, data, *index); return (0); } if (utf8_big_list_used == utf8_big_list_size) { if (utf8_big_list_size == 0xffffff) return (-1); if (utf8_big_list_size == 0) utf8_big_list_size = 256; else if (utf8_big_list_size > 0x7fffff) utf8_big_list_size = 0xffffff; else utf8_big_list_size *= 2; utf8_big_list = xreallocarray(utf8_big_list, utf8_big_list_size, sizeof *utf8_big_list); } *index = utf8_big_list_used++; bi = &utf8_big_list[*index]; bi->index = *index; memcpy(bi->data, data, size); bi->size = size; RB_INSERT(utf8_big_tree, &utf8_big_tree, bi); log_debug("%s: added %.*s at %u", __func__, (int)size, data, *index); return (0); } /* Get UTF-8 as index into buffer. */ u_int utf8_map_big(const struct utf8_data *ud) { union utf8_big_map m = { .value = 0 }; u_int o; const char *data = ud->data; size_t size = ud->size; if (ud->width != 1 && ud->width != 2) return (utf8_big_space1.value); if (size > UTF8_BIG_SIZE) goto fail; if (size == 1) return (utf8_set_big(data[0], 1)); m.flags = size; if (ud->width == 2) m.flags |= UTF8_BIG_WIDTH2; if (size <= 3) { memcpy(&m.data, data, size); return (m.value); } if (utf8_put_big_item(data, size, &o) != 0) goto fail; m.data[0] = (o & 0xff); m.data[1] = (o >> 8) & 0xff; m.data[2] = (o >> 16); return (m.value); fail: if (ud->width == 1) return (utf8_big_space1.value); return (utf8_big_space2.value); } /* Get UTF-8 from index into buffer. */ void utf8_get_big(u_int v, struct utf8_data *ud) { union utf8_big_map m = { .value = v }; struct utf8_big_item *bi; u_int o; memset(ud, 0, sizeof *ud); ud->size = ud->have = (m.flags & UTF8_BIG_SIZE); if (m.flags & UTF8_BIG_WIDTH2) ud->width = 2; else ud->width = 1; if (ud->size <= 3) { memcpy(ud->data, m.data, ud->size); return; } o = ((u_int)m.data[2] << 16)|((u_int)m.data[1] << 8)|m.data[0]; if (o >= utf8_big_list_used) memset(ud->data, ' ', ud->size); else { bi = &utf8_big_list[o]; memcpy(ud->data, bi->data, ud->size); } } /* Get big value for UTF-8 single character. */ u_int utf8_set_big(char c, u_int width) { union utf8_big_map m = { .flags = 1, .data[0] = c }; if (width == 2) m.flags |= UTF8_BIG_WIDTH2; return (m.value); } /* Set a single character. */ void utf8_set(struct utf8_data *ud, u_char ch) { static const struct utf8_data empty = { { 0 }, 1, 1, 1 }; memcpy(ud, &empty, sizeof *ud); *ud->data = ch; } /* Copy UTF-8 character. */ void utf8_copy(struct utf8_data *to, const struct utf8_data *from) { u_int i; memcpy(to, from, sizeof *to); for (i = to->size; i < sizeof to->data; i++) to->data[i] = '\0'; } /* * Open UTF-8 sequence. * * 11000010-11011111 C2-DF start of 2-byte sequence * 11100000-11101111 E0-EF start of 3-byte sequence * 11110000-11110100 F0-F4 start of 4-byte sequence */ enum utf8_state utf8_open(struct utf8_data *ud, u_char ch) { memset(ud, 0, sizeof *ud); if (ch >= 0xc2 && ch <= 0xdf) ud->size = 2; else if (ch >= 0xe0 && ch <= 0xef) ud->size = 3; else if (ch >= 0xf0 && ch <= 0xf4) ud->size = 4; else return (UTF8_ERROR); utf8_append(ud, ch); return (UTF8_MORE); } /* Append character to UTF-8, closing if finished. */ enum utf8_state utf8_append(struct utf8_data *ud, u_char ch) { wchar_t wc; int width; if (ud->have >= ud->size) fatalx("UTF-8 character overflow"); if (ud->size > sizeof ud->data) fatalx("UTF-8 character size too large"); if (ud->have != 0 && (ch & 0xc0) != 0x80) ud->width = 0xff; ud->data[ud->have++] = ch; if (ud->have != ud->size) return (UTF8_MORE); if (ud->width == 0xff) return (UTF8_ERROR); if (utf8_combine(ud, &wc) != UTF8_DONE) return (UTF8_ERROR); if ((width = utf8_width(wc)) < 0) return (UTF8_ERROR); ud->width = width; return (UTF8_DONE); } /* Get width of Unicode character. */ static int utf8_width(wchar_t wc) { int width; width = wcwidth(wc); if (width < 0 || width > 0xff) { log_debug("Unicode %04lx, wcwidth() %d", (long)wc, width); return (-1); } return (width); } /* Combine UTF-8 into Unicode. */ enum utf8_state utf8_combine(const struct utf8_data *ud, wchar_t *wc) { switch (mbtowc(wc, ud->data, ud->size)) { case -1: log_debug("UTF-8 %.*s, mbtowc() %d", (int)ud->size, ud->data, errno); mbtowc(NULL, NULL, MB_CUR_MAX); return (UTF8_ERROR); case 0: return (UTF8_ERROR); default: return (UTF8_DONE); } } /* Split Unicode into UTF-8. */ enum utf8_state utf8_split(wchar_t wc, struct utf8_data *ud) { char s[MB_LEN_MAX]; int slen; slen = wctomb(s, wc); if (slen <= 0 || slen > (int)sizeof ud->data) return (UTF8_ERROR); memcpy(ud->data, s, slen); ud->size = slen; ud->width = utf8_width(wc); return (UTF8_DONE); } /* * Encode len characters from src into dst, which is guaranteed to have four * bytes available for each character from src (for \abc or UTF-8) plus space * for \0. */ int utf8_strvis(char *dst, const char *src, size_t len, int flag) { struct utf8_data ud; const char *start, *end; enum utf8_state more; size_t i; start = dst; end = src + len; while (src < end) { if ((more = utf8_open(&ud, *src)) == UTF8_MORE) { while (++src < end && more == UTF8_MORE) more = utf8_append(&ud, *src); if (more == UTF8_DONE) { /* UTF-8 character finished. */ for (i = 0; i < ud.size; i++) *dst++ = ud.data[i]; continue; } /* Not a complete, valid UTF-8 character. */ src -= ud.have; } if (src[0] == '$' && src < end - 1) { if (isalpha((u_char)src[1]) || src[1] == '_' || src[1] == '{') *dst++ = '\\'; *dst++ = '$'; } else if (src < end - 1) dst = vis(dst, src[0], flag, src[1]); else if (src < end) dst = vis(dst, src[0], flag, '\0'); src++; } *dst = '\0'; return (dst - start); } /* Same as utf8_strvis but allocate the buffer. */ int utf8_stravis(char **dst, const char *src, int flag) { char *buf; int len; buf = xreallocarray(NULL, 4, strlen(src) + 1); len = utf8_strvis(buf, src, strlen(src), flag); *dst = xrealloc(buf, len + 1); return (len); } /* Does this string contain anything that isn't valid UTF-8? */ int utf8_isvalid(const char *s) { struct utf8_data ud; const char *end; enum utf8_state more; end = s + strlen(s); while (s < end) { if ((more = utf8_open(&ud, *s)) == UTF8_MORE) { while (++s < end && more == UTF8_MORE) more = utf8_append(&ud, *s); if (more == UTF8_DONE) continue; return (0); } if (*s < 0x20 || *s > 0x7e) return (0); s++; } return (1); } /* * Sanitize a string, changing any UTF-8 characters to '_'. Caller should free * the returned string. Anything not valid printable ASCII or UTF-8 is * stripped. */ char * utf8_sanitize(const char *src) { char *dst; size_t n; enum utf8_state more; struct utf8_data ud; u_int i; dst = NULL; n = 0; while (*src != '\0') { dst = xreallocarray(dst, n + 1, sizeof *dst); if ((more = utf8_open(&ud, *src)) == UTF8_MORE) { while (*++src != '\0' && more == UTF8_MORE) more = utf8_append(&ud, *src); if (more == UTF8_DONE) { dst = xreallocarray(dst, n + ud.width, sizeof *dst); for (i = 0; i < ud.width; i++) dst[n++] = '_'; continue; } src -= ud.have; } if (*src > 0x1f && *src < 0x7f) dst[n++] = *src; else dst[n++] = '_'; src++; } dst = xreallocarray(dst, n + 1, sizeof *dst); dst[n] = '\0'; return (dst); } /* Get UTF-8 buffer length. */ size_t utf8_strlen(const struct utf8_data *s) { size_t i; for (i = 0; s[i].size != 0; i++) /* nothing */; return (i); } /* Get UTF-8 string width. */ u_int utf8_strwidth(const struct utf8_data *s, ssize_t n) { ssize_t i; u_int width; width = 0; for (i = 0; s[i].size != 0; i++) { if (n != -1 && n == i) break; width += s[i].width; } return (width); } /* * Convert a string into a buffer of UTF-8 characters. Terminated by size == 0. * Caller frees. */ struct utf8_data * utf8_fromcstr(const char *src) { struct utf8_data *dst; size_t n; enum utf8_state more; dst = NULL; n = 0; while (*src != '\0') { dst = xreallocarray(dst, n + 1, sizeof *dst); if ((more = utf8_open(&dst[n], *src)) == UTF8_MORE) { while (*++src != '\0' && more == UTF8_MORE) more = utf8_append(&dst[n], *src); if (more == UTF8_DONE) { n++; continue; } src -= dst[n].have; } utf8_set(&dst[n], *src); n++; src++; } dst = xreallocarray(dst, n + 1, sizeof *dst); dst[n].size = 0; return (dst); } /* Convert from a buffer of UTF-8 characters into a string. Caller frees. */ char * utf8_tocstr(struct utf8_data *src) { char *dst; size_t n; dst = NULL; n = 0; for(; src->size != 0; src++) { dst = xreallocarray(dst, n + src->size, 1); memcpy(dst + n, src->data, src->size); n += src->size; } dst = xreallocarray(dst, n + 1, 1); dst[n] = '\0'; return (dst); } /* Get width of UTF-8 string. */ u_int utf8_cstrwidth(const char *s) { struct utf8_data tmp; u_int width; enum utf8_state more; width = 0; while (*s != '\0') { if ((more = utf8_open(&tmp, *s)) == UTF8_MORE) { while (*++s != '\0' && more == UTF8_MORE) more = utf8_append(&tmp, *s); if (more == UTF8_DONE) { width += tmp.width; continue; } s -= tmp.have; } if (*s > 0x1f && *s != 0x7f) width++; s++; } return (width); } /* Pad UTF-8 string to width on the left. Caller frees. */ char * utf8_padcstr(const char *s, u_int width) { size_t slen; char *out; u_int n, i; n = utf8_cstrwidth(s); if (n >= width) return (xstrdup(s)); slen = strlen(s); out = xmalloc(slen + 1 + (width - n)); memcpy(out, s, slen); for (i = n; i < width; i++) out[slen++] = ' '; out[slen] = '\0'; return (out); } /* Pad UTF-8 string to width on the right. Caller frees. */ char * utf8_rpadcstr(const char *s, u_int width) { size_t slen; char *out; u_int n, i; n = utf8_cstrwidth(s); if (n >= width) return (xstrdup(s)); slen = strlen(s); out = xmalloc(slen + 1 + (width - n)); for (i = 0; i < width - n; i++) out[i] = ' '; memcpy(out + i, s, slen); out[i + slen] = '\0'; return (out); } int utf8_cstrhas(const char *s, const struct utf8_data *ud) { struct utf8_data *copy, *loop; int found = 0; copy = utf8_fromcstr(s); for (loop = copy; loop->size != 0; loop++) { if (loop->size != ud->size) continue; if (memcmp(loop->data, ud->data, loop->size) == 0) { found = 1; break; } } free(copy); return (found); }