/* * LuCI Template - Utility functions * * Copyright (C) 2010 Jo-Philipp Wich * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "template_utils.h" #include "template_lmo.h" /* initialize a buffer object */ struct template_buffer * buf_init(int size) { struct template_buffer *buf; if (size <= 0) size = 1024; buf = (struct template_buffer *)malloc(sizeof(struct template_buffer)); if (buf != NULL) { buf->fill = 0; buf->size = size; buf->data = malloc(buf->size); if (buf->data != NULL) { buf->dptr = buf->data; buf->data[0] = 0; return buf; } free(buf); } return NULL; } /* grow buffer */ int buf_grow(struct template_buffer *buf, int size) { unsigned int off = (buf->dptr - buf->data); char *data; if (size <= 0) size = 1024; data = realloc(buf->data, buf->size + size); if (data != NULL) { buf->data = data; buf->dptr = data + off; buf->size += size; return buf->size; } return 0; } /* put one char into buffer object */ int buf_putchar(struct template_buffer *buf, char c) { if( ((buf->fill + 1) >= buf->size) && !buf_grow(buf, 0) ) return 0; *(buf->dptr++) = c; *(buf->dptr) = 0; buf->fill++; return 1; } /* append data to buffer */ int buf_append(struct template_buffer *buf, const char *s, int len) { if ((buf->fill + len + 1) >= buf->size) { if (!buf_grow(buf, len + 1)) return 0; } memcpy(buf->dptr, s, len); buf->fill += len; buf->dptr += len; *(buf->dptr) = 0; return len; } /* read buffer length */ int buf_length(struct template_buffer *buf) { return buf->fill; } /* destroy buffer object and return pointer to data */ char * buf_destroy(struct template_buffer *buf) { char *data = buf->data; free(buf); return data; } /* calculate the number of expected continuation chars */ static inline int mb_num_chars(unsigned char c) { if ((c & 0xE0) == 0xC0) return 2; else if ((c & 0xF0) == 0xE0) return 3; else if ((c & 0xF8) == 0xF0) return 4; else if ((c & 0xFC) == 0xF8) return 5; else if ((c & 0xFE) == 0xFC) return 6; return 1; } /* test whether the given byte is a valid continuation char */ static inline int mb_is_cont(unsigned char c) { return ((c >= 0x80) && (c <= 0xBF)); } /* test whether the byte sequence at the given pointer with the given * length is the shortest possible representation of the code point */ static inline int mb_is_shortest(unsigned char *s, int n) { switch (n) { case 2: /* 1100000x (10xxxxxx) */ return !(((*s >> 1) == 0x60) && ((*(s+1) >> 6) == 0x02)); case 3: /* 11100000 100xxxxx (10xxxxxx) */ return !((*s == 0xE0) && ((*(s+1) >> 5) == 0x04) && ((*(s+2) >> 6) == 0x02)); case 4: /* 11110000 1000xxxx (10xxxxxx 10xxxxxx) */ return !((*s == 0xF0) && ((*(s+1) >> 4) == 0x08) && ((*(s+2) >> 6) == 0x02) && ((*(s+3) >> 6) == 0x02)); case 5: /* 11111000 10000xxx (10xxxxxx 10xxxxxx 10xxxxxx) */ return !((*s == 0xF8) && ((*(s+1) >> 3) == 0x10) && ((*(s+2) >> 6) == 0x02) && ((*(s+3) >> 6) == 0x02) && ((*(s+4) >> 6) == 0x02)); case 6: /* 11111100 100000xx (10xxxxxx 10xxxxxx 10xxxxxx 10xxxxxx) */ return !((*s == 0xF8) && ((*(s+1) >> 2) == 0x20) && ((*(s+2) >> 6) == 0x02) && ((*(s+3) >> 6) == 0x02) && ((*(s+4) >> 6) == 0x02) && ((*(s+5) >> 6) == 0x02)); } return 1; } /* test whether the byte sequence at the given pointer with the given * length is an UTF-16 surrogate */ static inline int mb_is_surrogate(unsigned char *s, int n) { return ((n == 3) && (*s == 0xED) && (*(s+1) >= 0xA0) && (*(s+1) <= 0xBF)); } /* test whether the byte sequence at the given pointer with the given * length is an illegal UTF-8 code point */ static inline int mb_is_illegal(unsigned char *s, int n) { return ((n == 3) && (*s == 0xEF) && (*(s+1) == 0xBF) && (*(s+2) >= 0xBE) && (*(s+2) <= 0xBF)); } /* scan given source string, validate UTF-8 sequence and store result * in given buffer object */ static int _validate_utf8(unsigned char **s, int l, struct template_buffer *buf) { unsigned char *ptr = *s; unsigned int o = 0, v, n; /* ascii byte without null */ if ((*(ptr+0) >= 0x01) && (*(ptr+0) <= 0x7F)) { if (!buf_putchar(buf, *ptr++)) return 0; o = 1; } /* multi byte sequence */ else if ((n = mb_num_chars(*ptr)) > 1) { /* count valid chars */ for (v = 1; (v <= n) && ((o+v) < l) && mb_is_cont(*(ptr+v)); v++); switch (n) { case 6: case 5: /* five and six byte sequences are always invalid */ if (!buf_putchar(buf, '?')) return 0; break; default: /* if the number of valid continuation bytes matches the * expected number and if the sequence is legal, copy * the bytes to the destination buffer */ if ((v == n) && mb_is_shortest(ptr, n) && !mb_is_surrogate(ptr, n) && !mb_is_illegal(ptr, n)) { /* copy sequence */ if (!buf_append(buf, (char *)ptr, n)) return 0; } /* the found sequence is illegal, skip it */ else { /* invalid sequence */ if (!buf_putchar(buf, '?')) return 0; } break; } /* advance beyound the last found valid continuation char */ o = v; ptr += v; } /* invalid byte (0x00) */ else { if (!buf_putchar(buf, '?')) /* or 0xEF, 0xBF, 0xBD */ return 0; o = 1; ptr++; } *s = ptr; return o; } /* sanitize given string and replace all invalid UTF-8 sequences with "?" */ char * sanitize_utf8(const char *s, unsigned int l) { struct template_buffer *buf = buf_init(l); unsigned char *ptr = (unsigned char *)s; unsigned int v, o; if (!buf) return NULL; for (o = 0; o < l; o++) { /* ascii char */ if ((*ptr >= 0x01) && (*ptr <= 0x7F)) { if (!buf_putchar(buf, (char)*ptr++)) break; } /* invalid byte or multi byte sequence */ else { if (!(v = _validate_utf8(&ptr, l - o, buf))) break; o += (v - 1); } } return buf_destroy(buf); } /* Sanitize given string and strip all invalid XML bytes * Validate UTF-8 sequences * Escape XML control chars */ char * sanitize_pcdata(const char *s, unsigned int l) { struct template_buffer *buf = buf_init(l); unsigned char *ptr = (unsigned char *)s; unsigned int o, v; char esq[8]; int esl; if (!buf) return NULL; for (o = 0; o < l; o++) { /* Invalid XML bytes */ if (((*ptr >= 0x00) && (*ptr <= 0x08)) || ((*ptr >= 0x0B) && (*ptr <= 0x0C)) || ((*ptr >= 0x0E) && (*ptr <= 0x1F)) || (*ptr == 0x7F)) { ptr++; } /* Escapes */ else if ((*ptr == 0x26) || (*ptr == 0x27) || (*ptr == 0x22) || (*ptr == 0x3C) || (*ptr == 0x3E)) { esl = snprintf(esq, sizeof(esq), "&#%i;", *ptr); if (!buf_append(buf, esq, esl)) break; ptr++; } /* ascii char */ else if (*ptr <= 0x7F) { buf_putchar(buf, (char)*ptr++); } /* multi byte sequence */ else { if (!(v = _validate_utf8(&ptr, l - o, buf))) break; o += (v - 1); } } return buf_destroy(buf); } void escape_luastr(struct template_buffer *out, const char *s, unsigned int l, int escape_xml) { int esl; char esq[8]; char *ptr; for (ptr = (char *)s; ptr < (s + l); ptr++) { switch (*ptr) { case '\\': buf_append(out, "\\\\", 2); break; case '"': if (escape_xml) buf_append(out, """, 5); else buf_append(out, "\\\"", 2); break; case '\n': buf_append(out, "\\n", 2); break; case '\'': case '&': case '<': case '>': if (escape_xml) { esl = snprintf(esq, sizeof(esq), "&#%i;", *ptr); buf_append(out, esq, esl); break; } default: buf_putchar(out, *ptr); } } } void translate_luastr(struct template_buffer *out, const char *s, unsigned int l, int escape_xml) { char *tr; int trlen; switch (lmo_translate(s, l, &tr, &trlen)) { case 0: escape_luastr(out, tr, trlen, escape_xml); break; case -1: escape_luastr(out, s, l, escape_xml); break; default: /* no catalog loaded */ break; } }