#include "fitz-internal.h" #include "mupdf-internal.h" fz_rect pdf_to_rect(fz_context *ctx, pdf_obj *array) { fz_rect r; float a = pdf_to_real(pdf_array_get(array, 0)); float b = pdf_to_real(pdf_array_get(array, 1)); float c = pdf_to_real(pdf_array_get(array, 2)); float d = pdf_to_real(pdf_array_get(array, 3)); r.x0 = fz_min(a, c); r.y0 = fz_min(b, d); r.x1 = fz_max(a, c); r.y1 = fz_max(b, d); return r; } fz_matrix pdf_to_matrix(fz_context *ctx, pdf_obj *array) { fz_matrix m; m.a = pdf_to_real(pdf_array_get(array, 0)); m.b = pdf_to_real(pdf_array_get(array, 1)); m.c = pdf_to_real(pdf_array_get(array, 2)); m.d = pdf_to_real(pdf_array_get(array, 3)); m.e = pdf_to_real(pdf_array_get(array, 4)); m.f = pdf_to_real(pdf_array_get(array, 5)); return m; } /* Convert Unicode/PdfDocEncoding string into utf-8 */ char * pdf_to_utf8(pdf_document *xref, pdf_obj *src) { fz_context *ctx = xref->ctx; fz_buffer *strmbuf = NULL; unsigned char *srcptr; char *dstptr, *dst; int srclen; int dstlen = 0; int ucs; int i; fz_var(strmbuf); fz_try(ctx) { if (pdf_is_string(src)) { srcptr = (unsigned char *) pdf_to_str_buf(src); srclen = pdf_to_str_len(src); } else if (pdf_is_stream(xref, pdf_to_num(src), pdf_to_gen(src))) { strmbuf = pdf_load_stream(xref, pdf_to_num(src), pdf_to_gen(src)); srclen = fz_buffer_storage(ctx, strmbuf, (unsigned char **)&srcptr); } else { srclen = 0; } if (srclen >= 2 && srcptr[0] == 254 && srcptr[1] == 255) { for (i = 2; i + 1 < srclen; i += 2) { ucs = srcptr[i] << 8 | srcptr[i+1]; dstlen += fz_runelen(ucs); } dstptr = dst = fz_malloc(ctx, dstlen + 1); for (i = 2; i + 1 < srclen; i += 2) { ucs = srcptr[i] << 8 | srcptr[i+1]; dstptr += fz_runetochar(dstptr, ucs); } } else if (srclen >= 2 && srcptr[0] == 255 && srcptr[1] == 254) { for (i = 2; i + 1 < srclen; i += 2) { ucs = srcptr[i] | srcptr[i+1] << 8; dstlen += fz_runelen(ucs); } dstptr = dst = fz_malloc(ctx, dstlen + 1); for (i = 2; i + 1 < srclen; i += 2) { ucs = srcptr[i] | srcptr[i+1] << 8; dstptr += fz_runetochar(dstptr, ucs); } } else { for (i = 0; i < srclen; i++) dstlen += fz_runelen(pdf_doc_encoding[srcptr[i]]); dstptr = dst = fz_malloc(ctx, dstlen + 1); for (i = 0; i < srclen; i++) { ucs = pdf_doc_encoding[srcptr[i]]; dstptr += fz_runetochar(dstptr, ucs); } } } fz_always(ctx) { fz_drop_buffer(ctx, strmbuf); } fz_catch(ctx) { fz_rethrow(ctx); } *dstptr = '\0'; return dst; } /* Convert Unicode/PdfDocEncoding string into ucs-2 */ unsigned short * pdf_to_ucs2(pdf_document *xref, pdf_obj *src) { fz_context *ctx = xref->ctx; unsigned char *srcptr = (unsigned char *) pdf_to_str_buf(src); unsigned short *dstptr, *dst; int srclen = pdf_to_str_len(src); int i; if (srclen >= 2 && srcptr[0] == 254 && srcptr[1] == 255) { dstptr = dst = fz_malloc_array(ctx, (srclen - 2) / 2 + 1, sizeof(short)); for (i = 2; i + 1 < srclen; i += 2) *dstptr++ = srcptr[i] << 8 | srcptr[i+1]; } else if (srclen >= 2 && srcptr[0] == 255 && srcptr[1] == 254) { dstptr = dst = fz_malloc_array(ctx, (srclen - 2) / 2 + 1, sizeof(short)); for (i = 2; i + 1 < srclen; i += 2) *dstptr++ = srcptr[i] | srcptr[i+1] << 8; } else { dstptr = dst = fz_malloc_array(ctx, srclen + 1, sizeof(short)); for (i = 0; i < srclen; i++) *dstptr++ = pdf_doc_encoding[srcptr[i]]; } *dstptr = '\0'; return dst; } /* Convert UCS-2 string into PdfDocEncoding for authentication */ char * pdf_from_ucs2(pdf_document *xref, unsigned short *src) { fz_context *ctx = xref->ctx; int i, j, len; char *docstr; len = 0; while (src[len]) len++; docstr = fz_malloc(ctx, len + 1); for (i = 0; i < len; i++) { /* shortcut: check if the character has the same code point in both encodings */ if (0 < src[i] && src[i] < 256 && pdf_doc_encoding[src[i]] == src[i]) { docstr[i] = src[i]; continue; } /* search through pdf_docencoding for the character's code point */ for (j = 0; j < 256; j++) if (pdf_doc_encoding[j] == src[i]) break; docstr[i] = j; /* fail, if a character can't be encoded */ if (!docstr[i]) { fz_free(ctx, docstr); return NULL; } } docstr[len] = '\0'; return docstr; } pdf_obj * pdf_to_utf8_name(pdf_document *xref, pdf_obj *src) { char *buf = pdf_to_utf8(xref, src); pdf_obj *dst = fz_new_name(xref->ctx, buf); fz_free(xref->ctx, buf); return dst; } pdf_obj * pdf_parse_array(pdf_document *xref, fz_stream *file, pdf_lexbuf *buf) { pdf_obj *ary = NULL; pdf_obj *obj = NULL; int a = 0, b = 0, n = 0; int tok; fz_context *ctx = file->ctx; pdf_obj *op; fz_var(obj); ary = pdf_new_array(ctx, 4); fz_try(ctx) { while (1) { tok = pdf_lex(file, buf); if (tok != PDF_TOK_INT && tok != PDF_TOK_R) { if (n > 0) { obj = pdf_new_int(ctx, a); pdf_array_push(ary, obj); pdf_drop_obj(obj); obj = NULL; } if (n > 1) { obj = pdf_new_int(ctx, b); pdf_array_push(ary, obj); pdf_drop_obj(obj); obj = NULL; } n = 0; } if (tok == PDF_TOK_INT && n == 2) { obj = pdf_new_int(ctx, a); pdf_array_push(ary, obj); pdf_drop_obj(obj); obj = NULL; a = b; n --; } switch (tok) { case PDF_TOK_CLOSE_ARRAY: op = ary; goto end; case PDF_TOK_INT: if (n == 0) a = buf->i; if (n == 1) b = buf->i; n ++; break; case PDF_TOK_R: if (n != 2) fz_throw(ctx, "cannot parse indirect reference in array"); obj = pdf_new_indirect(ctx, a, b, xref); pdf_array_push(ary, obj); pdf_drop_obj(obj); obj = NULL; n = 0; break; case PDF_TOK_OPEN_ARRAY: obj = pdf_parse_array(xref, file, buf); pdf_array_push(ary, obj); pdf_drop_obj(obj); obj = NULL; break; case PDF_TOK_OPEN_DICT: obj = pdf_parse_dict(xref, file, buf); pdf_array_push(ary, obj); pdf_drop_obj(obj); obj = NULL; break; case PDF_TOK_NAME: obj = fz_new_name(ctx, buf->scratch); pdf_array_push(ary, obj); pdf_drop_obj(obj); obj = NULL; break; case PDF_TOK_REAL: obj = pdf_new_real(ctx, buf->f); pdf_array_push(ary, obj); pdf_drop_obj(obj); obj = NULL; break; case PDF_TOK_STRING: obj = pdf_new_string(ctx, buf->scratch, buf->len); pdf_array_push(ary, obj); pdf_drop_obj(obj); obj = NULL; break; case PDF_TOK_TRUE: obj = pdf_new_bool(ctx, 1); pdf_array_push(ary, obj); pdf_drop_obj(obj); obj = NULL; break; case PDF_TOK_FALSE: obj = pdf_new_bool(ctx, 0); pdf_array_push(ary, obj); pdf_drop_obj(obj); obj = NULL; break; case PDF_TOK_NULL: obj = pdf_new_null(ctx); pdf_array_push(ary, obj); pdf_drop_obj(obj); obj = NULL; break; default: fz_throw(ctx, "cannot parse token in array"); } } end: {} } fz_catch(ctx) { pdf_drop_obj(obj); pdf_drop_obj(ary); fz_throw(ctx, "cannot parse array"); } return op; } pdf_obj * pdf_parse_dict(pdf_document *xref, fz_stream *file, pdf_lexbuf *buf) { pdf_obj *dict; pdf_obj *key = NULL; pdf_obj *val = NULL; int tok; int a, b; fz_context *ctx = file->ctx; dict = pdf_new_dict(ctx, 8); fz_var(key); fz_var(val); fz_try(ctx) { while (1) { tok = pdf_lex(file, buf); skip: if (tok == PDF_TOK_CLOSE_DICT) break; /* for BI .. ID .. EI in content streams */ if (tok == PDF_TOK_KEYWORD && !strcmp(buf->scratch, "ID")) break; if (tok != PDF_TOK_NAME) fz_throw(ctx, "invalid key in dict"); key = fz_new_name(ctx, buf->scratch); tok = pdf_lex(file, buf); switch (tok) { case PDF_TOK_OPEN_ARRAY: val = pdf_parse_array(xref, file, buf); break; case PDF_TOK_OPEN_DICT: val = pdf_parse_dict(xref, file, buf); break; case PDF_TOK_NAME: val = fz_new_name(ctx, buf->scratch); break; case PDF_TOK_REAL: val = pdf_new_real(ctx, buf->f); break; case PDF_TOK_STRING: val = pdf_new_string(ctx, buf->scratch, buf->len); break; case PDF_TOK_TRUE: val = pdf_new_bool(ctx, 1); break; case PDF_TOK_FALSE: val = pdf_new_bool(ctx, 0); break; case PDF_TOK_NULL: val = pdf_new_null(ctx); break; case PDF_TOK_INT: /* 64-bit to allow for numbers > INT_MAX and overflow */ a = buf->i; tok = pdf_lex(file, buf); if (tok == PDF_TOK_CLOSE_DICT || tok == PDF_TOK_NAME || (tok == PDF_TOK_KEYWORD && !strcmp(buf->scratch, "ID"))) { val = pdf_new_int(ctx, a); pdf_dict_put(dict, key, val); pdf_drop_obj(val); val = NULL; pdf_drop_obj(key); key = NULL; goto skip; } if (tok == PDF_TOK_INT) { b = buf->i; tok = pdf_lex(file, buf); if (tok == PDF_TOK_R) { val = pdf_new_indirect(ctx, a, b, xref); break; } } fz_throw(ctx, "invalid indirect reference in dict"); default: fz_throw(ctx, "unknown token in dict"); } pdf_dict_put(dict, key, val); pdf_drop_obj(val); val = NULL; pdf_drop_obj(key); key = NULL; } } fz_catch(ctx) { pdf_drop_obj(dict); pdf_drop_obj(key); pdf_drop_obj(val); fz_throw(ctx, "cannot parse dict"); } return dict; } pdf_obj * pdf_parse_stm_obj(pdf_document *xref, fz_stream *file, pdf_lexbuf *buf) { int tok; fz_context *ctx = file->ctx; tok = pdf_lex(file, buf); switch (tok) { case PDF_TOK_OPEN_ARRAY: return pdf_parse_array(xref, file, buf); case PDF_TOK_OPEN_DICT: return pdf_parse_dict(xref, file, buf); case PDF_TOK_NAME: return fz_new_name(ctx, buf->scratch); break; case PDF_TOK_REAL: return pdf_new_real(ctx, buf->f); break; case PDF_TOK_STRING: return pdf_new_string(ctx, buf->scratch, buf->len); break; case PDF_TOK_TRUE: return pdf_new_bool(ctx, 1); break; case PDF_TOK_FALSE: return pdf_new_bool(ctx, 0); break; case PDF_TOK_NULL: return pdf_new_null(ctx); break; case PDF_TOK_INT: return pdf_new_int(ctx, buf->i); break; default: fz_throw(ctx, "unknown token in object stream"); } return NULL; /* Stupid MSVC */ } pdf_obj * pdf_parse_ind_obj(pdf_document *xref, fz_stream *file, pdf_lexbuf *buf, int *onum, int *ogen, int *ostmofs) { pdf_obj *obj = NULL; int num = 0, gen = 0, stm_ofs; int tok; int a, b; fz_context *ctx = file->ctx; fz_var(obj); tok = pdf_lex(file, buf); if (tok != PDF_TOK_INT) fz_throw(ctx, "expected object number"); num = buf->i; tok = pdf_lex(file, buf); if (tok != PDF_TOK_INT) fz_throw(ctx, "expected generation number (%d ? obj)", num); gen = buf->i; tok = pdf_lex(file, buf); if (tok != PDF_TOK_OBJ) fz_throw(ctx, "expected 'obj' keyword (%d %d ?)", num, gen); tok = pdf_lex(file, buf); switch (tok) { case PDF_TOK_OPEN_ARRAY: obj = pdf_parse_array(xref, file, buf); break; case PDF_TOK_OPEN_DICT: obj = pdf_parse_dict(xref, file, buf); break; case PDF_TOK_NAME: obj = fz_new_name(ctx, buf->scratch); break; case PDF_TOK_REAL: obj = pdf_new_real(ctx, buf->f); break; case PDF_TOK_STRING: obj = pdf_new_string(ctx, buf->scratch, buf->len); break; case PDF_TOK_TRUE: obj = pdf_new_bool(ctx, 1); break; case PDF_TOK_FALSE: obj = pdf_new_bool(ctx, 0); break; case PDF_TOK_NULL: obj = pdf_new_null(ctx); break; case PDF_TOK_INT: a = buf->i; tok = pdf_lex(file, buf); if (tok == PDF_TOK_STREAM || tok == PDF_TOK_ENDOBJ) { obj = pdf_new_int(ctx, a); goto skip; } if (tok == PDF_TOK_INT) { b = buf->i; tok = pdf_lex(file, buf); if (tok == PDF_TOK_R) { obj = pdf_new_indirect(ctx, a, b, xref); break; } } fz_throw(ctx, "expected 'R' keyword (%d %d R)", num, gen); case PDF_TOK_ENDOBJ: obj = pdf_new_null(ctx); goto skip; default: fz_throw(ctx, "syntax error in object (%d %d R)", num, gen); } fz_try(ctx) { tok = pdf_lex(file, buf); } fz_catch(ctx) { pdf_drop_obj(obj); fz_throw(ctx, "cannot parse indirect object (%d %d R)", num, gen); } skip: if (tok == PDF_TOK_STREAM) { int c = fz_read_byte(file); while (c == ' ') c = fz_read_byte(file); if (c == '\r') { c = fz_peek_byte(file); if (c != '\n') fz_warn(ctx, "line feed missing after stream begin marker (%d %d R)", num, gen); else fz_read_byte(file); } stm_ofs = fz_tell(file); } else if (tok == PDF_TOK_ENDOBJ) { stm_ofs = 0; } else { fz_warn(ctx, "expected 'endobj' or 'stream' keyword (%d %d R)", num, gen); stm_ofs = 0; } if (onum) *onum = num; if (ogen) *ogen = gen; if (ostmofs) *ostmofs = stm_ofs; return obj; }