#include "fitz.h" #include "mupdf.h" /* Scan file for objects and reconstruct xref table */ struct entry { int num; int gen; int ofs; int stm_ofs; int stm_len; }; static fz_error pdf_repair_obj(fz_stream *file, char *buf, int cap, int *stmofsp, int *stmlenp, fz_obj **encrypt, fz_obj **id) { fz_error error; int tok; int stm_len; int len; int n; *stmofsp = 0; *stmlenp = -1; stm_len = 0; error = pdf_lex(&tok, file, buf, cap, &len); if (error) return fz_rethrow(error, "cannot parse object"); if (tok == PDF_TOK_OPEN_DICT) { fz_obj *dict, *obj; /* Send NULL xref so we don't try to resolve references */ error = pdf_parse_dict(&dict, NULL, file, buf, cap); if (error) return fz_rethrow(error, "cannot parse object"); obj = fz_dict_gets(dict, "Type"); if (fz_is_name(obj) && !strcmp(fz_to_name(obj), "XRef")) { obj = fz_dict_gets(dict, "Encrypt"); if (obj) { if (*encrypt) fz_drop_obj(*encrypt); *encrypt = fz_keep_obj(obj); } obj = fz_dict_gets(dict, "ID"); if (obj) { if (*id) fz_drop_obj(*id); *id = fz_keep_obj(obj); } } obj = fz_dict_gets(dict, "Length"); if (fz_is_int(obj)) stm_len = fz_to_int(obj); fz_drop_obj(dict); } while ( tok != PDF_TOK_STREAM && tok != PDF_TOK_ENDOBJ && tok != PDF_TOK_ERROR && tok != PDF_TOK_EOF ) { error = pdf_lex(&tok, file, buf, cap, &len); if (error) return fz_rethrow(error, "cannot scan for endobj or stream token"); } if (tok == PDF_TOK_STREAM) { int c = fz_read_byte(file); if (c == '\r') { c = fz_peek_byte(file); if (c == '\n') fz_read_byte(file); } *stmofsp = fz_tell(file); if (*stmofsp < 0) return fz_throw("cannot seek in file"); if (stm_len > 0) { fz_seek(file, *stmofsp + stm_len, 0); error = pdf_lex(&tok, file, buf, cap, &len); if (error) fz_catch(error, "cannot find endstream token, falling back to scanning"); if (tok == PDF_TOK_ENDSTREAM) goto atobjend; fz_seek(file, *stmofsp, 0); } n = fz_read(file, (unsigned char *) buf, 9); if (n < 0) return fz_rethrow(n, "cannot read from file"); while (memcmp(buf, "endstream", 9) != 0) { c = fz_read_byte(file); if (c == EOF) break; memmove(buf, buf + 1, 8); buf[8] = c; } *stmlenp = fz_tell(file) - *stmofsp - 9; atobjend: error = pdf_lex(&tok, file, buf, cap, &len); if (error) return fz_rethrow(error, "cannot scan for endobj token"); if (tok != PDF_TOK_ENDOBJ) fz_warn("object missing 'endobj' token"); } return fz_okay; } static fz_error pdf_repair_obj_stm(pdf_xref *xref, int num, int gen) { fz_error error; fz_obj *obj; fz_stream *stm; int tok; int i, n, count; char buf[256]; error = pdf_load_object(&obj, xref, num, gen); if (error) return fz_rethrow(error, "cannot load object stream object (%d %d R)", num, gen); count = fz_to_int(fz_dict_gets(obj, "N")); fz_drop_obj(obj); error = pdf_open_stream(&stm, xref, num, gen); if (error) return fz_rethrow(error, "cannot open object stream object (%d %d R)", num, gen); for (i = 0; i < count; i++) { error = pdf_lex(&tok, stm, buf, sizeof buf, &n); if (error || tok != PDF_TOK_INT) { fz_close(stm); return fz_rethrow(error, "corrupt object stream (%d %d R)", num, gen); } n = atoi(buf); if (n >= xref->len) pdf_resize_xref(xref, n + 1); xref->table[n].ofs = num; xref->table[n].gen = i; xref->table[n].stm_ofs = 0; xref->table[n].obj = NULL; xref->table[n].type = 'o'; error = pdf_lex(&tok, stm, buf, sizeof buf, &n); if (error || tok != PDF_TOK_INT) { fz_close(stm); return fz_rethrow(error, "corrupt object stream (%d %d R)", num, gen); } } fz_close(stm); return fz_okay; } fz_error pdf_repair_xref(pdf_xref *xref, char *buf, int bufsize) { fz_error error; fz_obj *dict, *obj; fz_obj *length; fz_obj *encrypt = NULL; fz_obj *id = NULL; fz_obj *root = NULL; fz_obj *info = NULL; struct entry *list = NULL; int listlen; int listcap; int maxnum = 0; int num = 0; int gen = 0; int tmpofs, numofs = 0, genofs = 0; int stm_len, stm_ofs = 0; int tok; int next; int i, n, c; fz_seek(xref->file, 0, 0); listlen = 0; listcap = 1024; list = fz_calloc(listcap, sizeof(struct entry)); /* look for '%PDF' version marker within first kilobyte of file */ n = fz_read(xref->file, (unsigned char *)buf, MAX(bufsize, 1024)); if (n < 0) { error = fz_rethrow(n, "cannot read from file"); goto cleanup; } fz_seek(xref->file, 0, 0); for (i = 0; i < n - 4; i++) { if (memcmp(buf + i, "%PDF", 4) == 0) { fz_seek(xref->file, i + 8, 0); /* skip "%PDF-X.Y" */ break; } } /* skip comment line after version marker since some generators * forget to terminate the comment with a newline */ c = fz_read_byte(xref->file); while (c >= 0 && (c == ' ' || c == '%')) c = fz_read_byte(xref->file); fz_unread_byte(xref->file); while (1) { tmpofs = fz_tell(xref->file); if (tmpofs < 0) { error = fz_throw("cannot tell in file"); goto cleanup; } error = pdf_lex(&tok, xref->file, buf, bufsize, &n); if (error) { fz_catch(error, "ignoring the rest of the file"); break; } if (tok == PDF_TOK_INT) { numofs = genofs; num = gen; genofs = tmpofs; gen = atoi(buf); } else if (tok == PDF_TOK_OBJ) { error = pdf_repair_obj(xref->file, buf, bufsize, &stm_ofs, &stm_len, &encrypt, &id); if (error) { error = fz_rethrow(error, "cannot parse object (%d %d R)", num, gen); goto cleanup; } if (listlen + 1 == listcap) { listcap = (listcap * 3) / 2; list = fz_realloc(list, listcap, sizeof(struct entry)); } list[listlen].num = num; list[listlen].gen = gen; list[listlen].ofs = numofs; list[listlen].stm_ofs = stm_ofs; list[listlen].stm_len = stm_len; listlen ++; if (num > maxnum) maxnum = num; } /* trailer dictionary */ else if (tok == PDF_TOK_OPEN_DICT) { error = pdf_parse_dict(&dict, xref, xref->file, buf, bufsize); if (error) { error = fz_rethrow(error, "cannot parse object"); goto cleanup; } obj = fz_dict_gets(dict, "Encrypt"); if (obj) { if (encrypt) fz_drop_obj(encrypt); encrypt = fz_keep_obj(obj); } obj = fz_dict_gets(dict, "ID"); if (obj) { if (id) fz_drop_obj(id); id = fz_keep_obj(obj); } obj = fz_dict_gets(dict, "Root"); if (obj) { if (root) fz_drop_obj(root); root = fz_keep_obj(obj); } obj = fz_dict_gets(dict, "Info"); if (obj) { if (info) fz_drop_obj(info); info = fz_keep_obj(obj); } fz_drop_obj(dict); } else if (tok == PDF_TOK_ERROR) fz_read_byte(xref->file); else if (tok == PDF_TOK_EOF) break; } /* make xref reasonable */ pdf_resize_xref(xref, maxnum + 1); for (i = 0; i < listlen; i++) { xref->table[list[i].num].type = 'n'; xref->table[list[i].num].ofs = list[i].ofs; xref->table[list[i].num].gen = list[i].gen; xref->table[list[i].num].stm_ofs = list[i].stm_ofs; /* corrected stream length */ if (list[i].stm_len >= 0) { error = pdf_load_object(&dict, xref, list[i].num, list[i].gen); if (error) { error = fz_rethrow(error, "cannot load stream object (%d %d R)", list[i].num, list[i].gen); goto cleanup; } length = fz_new_int(list[i].stm_len); fz_dict_puts(dict, "Length", length); fz_drop_obj(length); fz_drop_obj(dict); } } xref->table[0].type = 'f'; xref->table[0].ofs = 0; xref->table[0].gen = 65535; xref->table[0].stm_ofs = 0; xref->table[0].obj = NULL; next = 0; for (i = xref->len - 1; i >= 0; i--) { if (xref->table[i].type == 'f') { xref->table[i].ofs = next; if (xref->table[i].gen < 65535) xref->table[i].gen ++; next = i; } } /* create a repaired trailer, Root will be added later */ xref->trailer = fz_new_dict(5); obj = fz_new_int(maxnum + 1); fz_dict_puts(xref->trailer, "Size", obj); fz_drop_obj(obj); if (root) { fz_dict_puts(xref->trailer, "Root", root); fz_drop_obj(root); } if (info) { fz_dict_puts(xref->trailer, "Info", info); fz_drop_obj(info); } if (encrypt) { if (fz_is_indirect(encrypt)) { /* create new reference with non-NULL xref pointer */ obj = fz_new_indirect(fz_to_num(encrypt), fz_to_gen(encrypt), xref); fz_drop_obj(encrypt); encrypt = obj; } fz_dict_puts(xref->trailer, "Encrypt", encrypt); fz_drop_obj(encrypt); } if (id) { if (fz_is_indirect(id)) { /* create new reference with non-NULL xref pointer */ obj = fz_new_indirect(fz_to_num(id), fz_to_gen(id), xref); fz_drop_obj(id); id = obj; } fz_dict_puts(xref->trailer, "ID", id); fz_drop_obj(id); } fz_free(list); return fz_okay; cleanup: if (encrypt) fz_drop_obj(encrypt); if (id) fz_drop_obj(id); if (root) fz_drop_obj(root); if (info) fz_drop_obj(info); fz_free(list); return error; /* already rethrown */ } fz_error pdf_repair_obj_stms(pdf_xref *xref) { fz_obj *dict; int i; for (i = 0; i < xref->len; i++) { if (xref->table[i].stm_ofs) { pdf_load_object(&dict, xref, i, 0); if (!strcmp(fz_to_name(fz_dict_gets(dict, "Type")), "ObjStm")) pdf_repair_obj_stm(xref, i, 0); fz_drop_obj(dict); } } return fz_okay; }