// Copyright (C) 2004-2023 Artifex Software, Inc. // // This file is part of MuPDF. // // MuPDF is free software: you can redistribute it and/or modify it under the // terms of the GNU Affero General Public License as published by the Free // Software Foundation, either version 3 of the License, or (at your option) // any later version. // // MuPDF 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 Affero General Public License for more // details. // // You should have received a copy of the GNU Affero General Public License // along with MuPDF. If not, see // // Alternative licensing terms are available from the licensor. // For commercial licensing, see or contact // Artifex Software, Inc., 1305 Grant Avenue - Suite 200, Novato, // CA 94945, U.S.A., +1(415)492-9861, for further information. #include "mupdf/fitz.h" #include "mupdf/pdf.h" #include int pdf_obj_num_is_stream(fz_context *ctx, pdf_document *doc, int num) { pdf_xref_entry *entry; if (num <= 0 || num >= pdf_xref_len(ctx, doc)) return 0; fz_try(ctx) entry = pdf_cache_object(ctx, doc, num); fz_catch(ctx) { fz_rethrow_if(ctx, FZ_ERROR_TRYLATER); return 0; } return entry->stm_ofs != 0 || entry->stm_buf; } int pdf_is_stream(fz_context *ctx, pdf_obj *ref) { pdf_document *doc = pdf_get_indirect_document(ctx, ref); if (doc) return pdf_obj_num_is_stream(ctx, doc, pdf_to_num(ctx, ref)); return 0; } /* * Scan stream dictionary for an explicit /Crypt filter */ static int pdf_stream_has_crypt(fz_context *ctx, pdf_obj *stm) { pdf_obj *filters; pdf_obj *obj; int i; filters = pdf_dict_geta(ctx, stm, PDF_NAME(Filter), PDF_NAME(F)); if (filters) { if (pdf_name_eq(ctx, filters, PDF_NAME(Crypt))) return 1; if (pdf_is_array(ctx, filters)) { int n = pdf_array_len(ctx, filters); for (i = 0; i < n; i++) { obj = pdf_array_get(ctx, filters, i); if (pdf_name_eq(ctx, obj, PDF_NAME(Crypt))) return 1; } } } return 0; } static fz_jbig2_globals * pdf_load_jbig2_globals(fz_context *ctx, pdf_obj *dict) { fz_jbig2_globals *globals; fz_buffer *buf = NULL; fz_var(buf); if ((globals = pdf_find_item(ctx, fz_drop_jbig2_globals_imp, dict)) != NULL) return globals; if (pdf_mark_obj(ctx, dict)) fz_throw(ctx, FZ_ERROR_GENERIC, "cyclic reference when loading JBIG2 globals"); fz_try(ctx) { buf = pdf_load_stream(ctx, dict); globals = fz_load_jbig2_globals(ctx, buf); pdf_store_item(ctx, dict, globals, fz_buffer_storage(ctx, buf, NULL)); } fz_always(ctx) { fz_drop_buffer(ctx, buf); pdf_unmark_obj(ctx, dict); } fz_catch(ctx) { fz_rethrow(ctx); } return globals; } static void build_compression_params(fz_context *ctx, pdf_obj *f, pdf_obj *p, fz_compression_params *params) { int predictor = pdf_dict_get_int(ctx, p, PDF_NAME(Predictor)); pdf_obj *columns_obj = pdf_dict_get(ctx, p, PDF_NAME(Columns)); int columns = pdf_to_int(ctx, columns_obj); int colors = pdf_dict_get_int(ctx, p, PDF_NAME(Colors)); int bpc = pdf_dict_get_int(ctx, p, PDF_NAME(BitsPerComponent)); if (bpc == 0) bpc = 8; params->type = FZ_IMAGE_RAW; if (pdf_name_eq(ctx, f, PDF_NAME(CCITTFaxDecode)) || pdf_name_eq(ctx, f, PDF_NAME(CCF))) { pdf_obj *k = pdf_dict_get(ctx, p, PDF_NAME(K)); pdf_obj *eol = pdf_dict_get(ctx, p, PDF_NAME(EndOfLine)); pdf_obj *eba = pdf_dict_get(ctx, p, PDF_NAME(EncodedByteAlign)); pdf_obj *rows = pdf_dict_get(ctx, p, PDF_NAME(Rows)); pdf_obj *eob = pdf_dict_get(ctx, p, PDF_NAME(EndOfBlock)); pdf_obj *bi1 = pdf_dict_get(ctx, p, PDF_NAME(BlackIs1)); params->type = FZ_IMAGE_FAX; params->u.fax.k = (k ? pdf_to_int(ctx, k) : 0); params->u.fax.end_of_line = (eol ? pdf_to_bool(ctx, eol) : 0); params->u.fax.encoded_byte_align = (eba ? pdf_to_bool(ctx, eba) : 0); params->u.fax.columns = (columns_obj ? columns : 1728); params->u.fax.rows = (rows ? pdf_to_int(ctx, rows) : 0); params->u.fax.end_of_block = (eob ? pdf_to_bool(ctx, eob) : 1); params->u.fax.black_is_1 = (bi1 ? pdf_to_bool(ctx, bi1) : 0); } else if (pdf_name_eq(ctx, f, PDF_NAME(DCTDecode)) || pdf_name_eq(ctx, f, PDF_NAME(DCT))) { pdf_obj *ct = pdf_dict_get(ctx, p, PDF_NAME(ColorTransform)); params->type = FZ_IMAGE_JPEG; params->u.jpeg.color_transform = (ct ? pdf_to_int(ctx, ct) : -2); } else if (pdf_name_eq(ctx, f, PDF_NAME(RunLengthDecode)) || pdf_name_eq(ctx, f, PDF_NAME(RL))) { params->type = FZ_IMAGE_RLD; } else if (pdf_name_eq(ctx, f, PDF_NAME(FlateDecode)) || pdf_name_eq(ctx, f, PDF_NAME(Fl))) { params->type = FZ_IMAGE_FLATE; params->u.flate.predictor = predictor; params->u.flate.columns = columns; params->u.flate.colors = colors; params->u.flate.bpc = bpc; } else if (pdf_name_eq(ctx, f, PDF_NAME(LZWDecode)) || pdf_name_eq(ctx, f, PDF_NAME(LZW))) { pdf_obj *ec = pdf_dict_get(ctx, p, PDF_NAME(EarlyChange)); params->type = FZ_IMAGE_LZW; params->u.lzw.predictor = predictor; params->u.lzw.columns = columns; params->u.lzw.colors = colors; params->u.lzw.bpc = bpc; params->u.lzw.early_change = (ec ? pdf_to_int(ctx, ec) : 1); } else if (pdf_name_eq(ctx, f, PDF_NAME(JBIG2Decode))) { pdf_obj *g = pdf_dict_get(ctx, p, PDF_NAME(JBIG2Globals)); params->type = FZ_IMAGE_JBIG2; params->u.jbig2.globals = NULL; params->u.jbig2.embedded = 1; /* jbig2 streams are always embedded without file headers */ if (g) { if (!pdf_is_stream(ctx, g)) fz_warn(ctx, "jbig2 globals is not a stream, skipping globals"); else params->u.jbig2.globals = pdf_load_jbig2_globals(ctx, g); } } } /* * Create a filter given a name and param dictionary. */ static fz_stream * build_filter(fz_context *ctx, fz_stream *chain, pdf_document *doc, pdf_obj *f, pdf_obj *p, int num, int gen, fz_compression_params *params) { fz_compression_params local_params; local_params.u.jbig2.globals = NULL; if (params == NULL) params = &local_params; build_compression_params(ctx, f, p, params); /* If we were using params we were passed in, and we successfully * recognised the image type, we can use the existing filter and * shortstop here. */ if (params != &local_params && params->type != FZ_IMAGE_RAW) return fz_keep_stream(ctx, chain); /* nothing to do */ else if (params->type == FZ_IMAGE_JBIG2) { fz_stream *stm; fz_try(ctx) stm = fz_open_image_decomp_stream(ctx, chain, params, NULL); fz_always(ctx) fz_drop_jbig2_globals(ctx, local_params.u.jbig2.globals); fz_catch(ctx) fz_rethrow(ctx); return stm; } else if (params->type != FZ_IMAGE_RAW) return fz_open_image_decomp_stream(ctx, chain, params, NULL); else if (pdf_name_eq(ctx, f, PDF_NAME(ASCIIHexDecode)) || pdf_name_eq(ctx, f, PDF_NAME(AHx))) return fz_open_ahxd(ctx, chain); else if (pdf_name_eq(ctx, f, PDF_NAME(ASCII85Decode)) || pdf_name_eq(ctx, f, PDF_NAME(A85))) return fz_open_a85d(ctx, chain); else if (pdf_name_eq(ctx, f, PDF_NAME(JPXDecode))) return fz_keep_stream(ctx, chain); /* JPX decoding is special cased in the image loading code */ else if (pdf_name_eq(ctx, f, PDF_NAME(Crypt))) { if (!doc->crypt) fz_warn(ctx, "crypt filter in unencrypted document"); else { pdf_obj *name = pdf_dict_get(ctx, p, PDF_NAME(Name)); if (pdf_is_name(ctx, name)) return pdf_open_crypt_with_filter(ctx, chain, doc->crypt, name, num, gen); } } else fz_warn(ctx, "unknown filter name (%s)", pdf_to_name(ctx, f)); return fz_keep_stream(ctx, chain); } /* Build filter, and assume ownership of chain */ static fz_stream * build_filter_drop(fz_context *ctx, fz_stream *tail, pdf_document *doc, pdf_obj *f, pdf_obj *p, int num, int gen, fz_compression_params *params) { fz_stream *head; fz_try(ctx) head = build_filter(ctx, tail, doc, f, p, num, gen, params); fz_always(ctx) fz_drop_stream(ctx, tail); fz_catch(ctx) fz_rethrow(ctx); return head; } /* * Build a chain of filters given filter names and param dicts. * If chain is given, start filter chain with it. * Assume ownership of chain. */ static fz_stream * build_filter_chain_drop(fz_context *ctx, fz_stream *chain, pdf_document *doc, pdf_obj *fs, pdf_obj *ps, int num, int gen, fz_compression_params *params) { fz_var(chain); fz_try(ctx) { int i, n = pdf_array_len(ctx, fs); for (i = 0; i < n; i++) { pdf_obj *f = pdf_array_get(ctx, fs, i); pdf_obj *p = pdf_array_get(ctx, ps, i); chain = build_filter_drop(ctx, chain, doc, f, p, num, gen, (i == n-1 ? params : NULL)); } } fz_catch(ctx) fz_rethrow(ctx); return chain; } static fz_stream * build_filter_chain(fz_context *ctx, fz_stream *chain, pdf_document *doc, pdf_obj *fs, pdf_obj *ps, int num, int gen, fz_compression_params *params) { return build_filter_chain_drop(ctx, fz_keep_stream(ctx, chain), doc, fs, ps, num, gen, params); } /* * Build a filter for reading raw stream data. * This is a null filter to constrain reading to the stream length (and to * allow for other people accessing the file), followed by a decryption * filter. * * orig_num and orig_gen are used purely to seed the encryption. */ static fz_stream * pdf_open_raw_filter(fz_context *ctx, fz_stream *file_stm, pdf_document *doc, pdf_obj *stmobj, int num, int *orig_num, int *orig_gen, int64_t offset) { pdf_xref_entry *x = NULL; fz_stream *null_stm, *crypt_stm; int hascrypt; int len; if (num > 0 && num < pdf_xref_len(ctx, doc)) { x = pdf_get_xref_entry(ctx, doc, num); } if (x == NULL) { /* We only end up here when called from pdf_open_stream_with_offset to parse new format XRef sections. */ /* New style XRef sections must have generation number 0. */ *orig_num = num; *orig_gen = 0; } else { *orig_num = x->num; *orig_gen = x->gen; if (x->stm_buf) return fz_open_buffer(ctx, x->stm_buf); } hascrypt = pdf_stream_has_crypt(ctx, stmobj); len = pdf_dict_get_int(ctx, stmobj, PDF_NAME(Length)); if (len < 0) len = 0; null_stm = fz_open_endstream_filter(ctx, file_stm, len, offset); if (doc->crypt && !hascrypt) { fz_try(ctx) crypt_stm = pdf_open_crypt(ctx, null_stm, doc->crypt, *orig_num, *orig_gen); fz_always(ctx) fz_drop_stream(ctx, null_stm); fz_catch(ctx) fz_rethrow(ctx); return crypt_stm; } return null_stm; } /* * Construct a filter to decode a stream, constraining * to stream length and decrypting. */ static fz_stream * pdf_open_filter(fz_context *ctx, pdf_document *doc, fz_stream *file_stm, pdf_obj *stmobj, int num, int64_t offset, fz_compression_params *imparams) { pdf_obj *filters = pdf_dict_geta(ctx, stmobj, PDF_NAME(Filter), PDF_NAME(F)); pdf_obj *params = pdf_dict_geta(ctx, stmobj, PDF_NAME(DecodeParms), PDF_NAME(DP)); int orig_num, orig_gen; fz_stream *rstm, *fstm; rstm = pdf_open_raw_filter(ctx, file_stm, doc, stmobj, num, &orig_num, &orig_gen, offset); fz_try(ctx) { if (pdf_is_name(ctx, filters)) fstm = build_filter(ctx, rstm, doc, filters, params, orig_num, orig_gen, imparams); else if (pdf_array_len(ctx, filters) > 0) fstm = build_filter_chain(ctx, rstm, doc, filters, params, orig_num, orig_gen, imparams); else { if (imparams) imparams->type = FZ_IMAGE_RAW; fstm = fz_keep_stream(ctx, rstm); } } fz_always(ctx) fz_drop_stream(ctx, rstm); fz_catch(ctx) fz_rethrow(ctx); return fstm; } fz_stream * pdf_open_inline_stream(fz_context *ctx, pdf_document *doc, pdf_obj *stmobj, int length, fz_stream *file_stm, fz_compression_params *imparams) { pdf_obj *filters = pdf_dict_geta(ctx, stmobj, PDF_NAME(Filter), PDF_NAME(F)); pdf_obj *params = pdf_dict_geta(ctx, stmobj, PDF_NAME(DecodeParms), PDF_NAME(DP)); if (pdf_is_name(ctx, filters)) return build_filter(ctx, file_stm, doc, filters, params, 0, 0, imparams); else if (pdf_array_len(ctx, filters) > 0) return build_filter_chain(ctx, file_stm, doc, filters, params, 0, 0, imparams); if (imparams) imparams->type = FZ_IMAGE_RAW; return fz_open_null_filter(ctx, file_stm, length, fz_tell(ctx, file_stm)); } void pdf_load_compressed_inline_image(fz_context *ctx, pdf_document *doc, pdf_obj *dict, int length, fz_stream *file_stm, int indexed, fz_compressed_image *image) { fz_stream *istm = NULL, *leech = NULL, *decomp = NULL; fz_pixmap *pixmap = NULL; fz_compressed_buffer *bc; int dummy_l2factor = 0; fz_var(istm); fz_var(leech); fz_var(decomp); fz_var(pixmap); bc = fz_malloc_struct(ctx, fz_compressed_buffer); fz_try(ctx) { bc->buffer = fz_new_buffer(ctx, 1024); istm = pdf_open_inline_stream(ctx, doc, dict, length, file_stm, &bc->params); leech = fz_open_leecher(ctx, istm, bc->buffer); decomp = fz_open_image_decomp_stream(ctx, leech, &bc->params, &dummy_l2factor); pixmap = fz_decomp_image_from_stream(ctx, decomp, image, NULL, indexed, 0, NULL); fz_set_compressed_image_buffer(ctx, image, bc); } fz_always(ctx) { fz_drop_stream(ctx, istm); fz_drop_stream(ctx, leech); fz_drop_stream(ctx, decomp); fz_drop_pixmap(ctx, pixmap); } fz_catch(ctx) { fz_drop_compressed_buffer(ctx, bc); fz_rethrow(ctx); } } fz_stream * pdf_open_raw_stream_number(fz_context *ctx, pdf_document *doc, int num) { pdf_xref_entry *x; int orig_num, orig_gen; x = pdf_cache_object(ctx, doc, num); if (x->stm_ofs == 0) fz_throw(ctx, FZ_ERROR_GENERIC, "object is not a stream"); return pdf_open_raw_filter(ctx, doc->file, doc, x->obj, num, &orig_num, &orig_gen, x->stm_ofs); } static fz_stream * pdf_open_image_stream(fz_context *ctx, pdf_document *doc, int num, fz_compression_params *params) { pdf_xref_entry *x; x = pdf_cache_object(ctx, doc, num); if (x->stm_ofs == 0 && x->stm_buf == NULL) fz_throw(ctx, FZ_ERROR_GENERIC, "object is not a stream"); return pdf_open_filter(ctx, doc, doc->file, x->obj, num, x->stm_ofs, params); } fz_stream * pdf_open_stream_number(fz_context *ctx, pdf_document *doc, int num) { return pdf_open_image_stream(ctx, doc, num, NULL); } fz_stream * pdf_open_stream_with_offset(fz_context *ctx, pdf_document *doc, int num, pdf_obj *dict, int64_t stm_ofs) { if (stm_ofs == 0) fz_throw(ctx, FZ_ERROR_GENERIC, "object is not a stream"); return pdf_open_filter(ctx, doc, doc->file, dict, num, stm_ofs, NULL); } fz_buffer * pdf_load_raw_stream_number(fz_context *ctx, pdf_document *doc, int num) { fz_stream *stm; pdf_obj *dict; int len; fz_buffer *buf = NULL; pdf_xref_entry *x; if (num > 0 && num < pdf_xref_len(ctx, doc)) { x = pdf_get_xref_entry_no_null(ctx, doc, num); if (x->stm_buf) return fz_keep_buffer(ctx, x->stm_buf); } dict = pdf_load_object(ctx, doc, num); fz_try(ctx) len = pdf_dict_get_int(ctx, dict, PDF_NAME(Length)); fz_always(ctx) pdf_drop_obj(ctx, dict); fz_catch(ctx) fz_rethrow(ctx); stm = pdf_open_raw_stream_number(ctx, doc, num); fz_try(ctx) buf = fz_read_all(ctx, stm, len); fz_always(ctx) fz_drop_stream(ctx, stm); fz_catch(ctx) fz_rethrow(ctx); return buf; } static size_t pdf_guess_filter_length(size_t len, const char *filter) { size_t nlen = len; /* First ones get smaller, no overflow check required. */ if (!strcmp(filter, "ASCIIHexDecode")) return len / 2; else if (!strcmp(filter, "ASCII85Decode")) return len * 4 / 5; if (!strcmp(filter, "FlateDecode")) nlen = len * 3; else if (!strcmp(filter, "RunLengthDecode")) nlen = len * 3; else if (!strcmp(filter, "LZWDecode")) nlen = len * 2; /* Live with a bad estimate - we'll malloc up as we go, but * it's probably destined to fail anyway. */ if (nlen < len) return len; return nlen; } /* Check if an entry has a cached stream and return whether it is directly * reusable. A buffer is directly reusable only if the stream is * uncompressed, or if it is compressed purely a compression method we can * return details of in fz_compression_params. * * If the stream is reusable return 1, and set params as required, otherwise * return 0. */ static int can_reuse_buffer(fz_context *ctx, pdf_xref_entry *entry, fz_compression_params *params) { pdf_obj *f; pdf_obj *p; if (!entry || !entry->obj || !entry->stm_buf) return 0; if (params) params->type = FZ_IMAGE_RAW; f = pdf_dict_geta(ctx, entry->obj, PDF_NAME(Filter), PDF_NAME(F)); /* If there are no filters, it's uncompressed, and we can use it */ if (!f) return 1; p = pdf_dict_geta(ctx, entry->obj, PDF_NAME(DecodeParms), PDF_NAME(DP)); if (pdf_is_array(ctx, f)) { int len = pdf_array_len(ctx, f); /* Empty array of filters. Its uncompressed. We can cope. */ if (len == 0) return 1; /* 1 filter is the most we can hope to cope with - if more,*/ if (len != 1) return 0; p = pdf_array_get(ctx, p, 0); } if (pdf_is_null(ctx, f)) return 1; /* Null filter is uncompressed */ if (!pdf_is_name(ctx, f)) return 0; /* There are filters, so unless we have the option of shortstopping, * we can't use the existing buffer. */ if (!params) return 0; build_compression_params(ctx, f, p, params); return (params->type == FZ_IMAGE_RAW) ? 0 : 1; } static fz_buffer * pdf_load_image_stream(fz_context *ctx, pdf_document *doc, int num, fz_compression_params *params, int *truncated, size_t worst_case) { fz_stream *stm = NULL; pdf_obj *dict, *obj; int i, n; size_t len; fz_buffer *buf; fz_var(buf); if (num > 0 && num < pdf_xref_len(ctx, doc)) { pdf_xref_entry *entry = pdf_get_xref_entry(ctx, doc, num); /* Return ref to existing buffer, but only if uncompressed, * or shortstoppable */ if (can_reuse_buffer(ctx, entry, params)) return fz_keep_buffer(ctx, entry->stm_buf); } dict = pdf_load_object(ctx, doc, num); fz_try(ctx) { int64_t ilen = pdf_dict_get_int64(ctx, dict, PDF_NAME(Length)); if (ilen < 0) ilen = 0; len = (size_t)ilen; /* In 32 bit builds, we might find a length being too * large for a size_t. */ if ((int64_t)len != ilen) fz_throw(ctx, FZ_ERROR_GENERIC, "Stream too large"); obj = pdf_dict_get(ctx, dict, PDF_NAME(Filter)); len = pdf_guess_filter_length(len, pdf_to_name(ctx, obj)); n = pdf_array_len(ctx, obj); for (i = 0; i < n; i++) len = pdf_guess_filter_length(len, pdf_to_name(ctx, pdf_array_get(ctx, obj, i))); } fz_always(ctx) { pdf_drop_obj(ctx, dict); } fz_catch(ctx) { fz_rethrow(ctx); } stm = pdf_open_image_stream(ctx, doc, num, params); fz_try(ctx) { buf = fz_read_best(ctx, stm, len, truncated, worst_case); } fz_always(ctx) { fz_drop_stream(ctx, stm); } fz_catch(ctx) { fz_rethrow(ctx); } return buf; } fz_buffer * pdf_load_stream_number(fz_context *ctx, pdf_document *doc, int num) { return pdf_load_image_stream(ctx, doc, num, NULL, NULL, 0); } fz_compressed_buffer * pdf_load_compressed_stream(fz_context *ctx, pdf_document *doc, int num, size_t worst_case) { fz_compressed_buffer *bc = fz_malloc_struct(ctx, fz_compressed_buffer); fz_try(ctx) { bc->buffer = pdf_load_image_stream(ctx, doc, num, &bc->params, NULL, worst_case); } fz_catch(ctx) { fz_free(ctx, bc); fz_rethrow(ctx); } return bc; } static fz_stream * pdf_open_object_array(fz_context *ctx, pdf_document *doc, pdf_obj *list) { fz_stream *stm; int i, n; n = pdf_array_len(ctx, list); stm = fz_open_concat(ctx, n, 1); for (i = 0; i < n; i++) { pdf_obj *obj = pdf_array_get(ctx, list, i); fz_try(ctx) fz_concat_push_drop(ctx, stm, pdf_open_stream(ctx, obj)); fz_catch(ctx) { if (fz_caught(ctx) == FZ_ERROR_TRYLATER) { fz_drop_stream(ctx, stm); fz_rethrow(ctx); } fz_warn(ctx, "cannot load content stream part %d/%d", i + 1, n); } } return stm; } fz_stream * pdf_open_contents_stream(fz_context *ctx, pdf_document *doc, pdf_obj *obj) { int num; if (pdf_is_array(ctx, obj)) return pdf_open_object_array(ctx, doc, obj); num = pdf_to_num(ctx, obj); if (pdf_is_stream(ctx, obj)) return pdf_open_image_stream(ctx, doc, num, NULL); fz_warn(ctx, "content stream is not a stream (%d 0 R)", num); return fz_open_memory(ctx, (unsigned char *)"", 0); } fz_buffer *pdf_load_raw_stream(fz_context *ctx, pdf_obj *ref) { if (pdf_is_stream(ctx, ref)) return pdf_load_raw_stream_number(ctx, pdf_get_indirect_document(ctx, ref), pdf_to_num(ctx, ref)); fz_throw(ctx, FZ_ERROR_GENERIC, "object is not a stream"); } fz_buffer *pdf_load_stream(fz_context *ctx, pdf_obj *ref) { if (pdf_is_stream(ctx, ref)) return pdf_load_stream_number(ctx, pdf_get_indirect_document(ctx, ref), pdf_to_num(ctx, ref)); fz_throw(ctx, FZ_ERROR_GENERIC, "object is not a stream"); } fz_stream *pdf_open_raw_stream(fz_context *ctx, pdf_obj *ref) { if (pdf_is_stream(ctx, ref)) return pdf_open_raw_stream_number(ctx, pdf_get_indirect_document(ctx, ref), pdf_to_num(ctx, ref)); fz_throw(ctx, FZ_ERROR_GENERIC, "object is not a stream"); } fz_stream *pdf_open_stream(fz_context *ctx, pdf_obj *ref) { if (pdf_is_stream(ctx, ref)) return pdf_open_stream_number(ctx, pdf_get_indirect_document(ctx, ref), pdf_to_num(ctx, ref)); fz_throw(ctx, FZ_ERROR_GENERIC, "object is not a stream"); }