/* * libid3tag - ID3 tag manipulation library * Copyright (C) 2000-2004 Underbit Technologies, Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * $Id: file.c,v 1.21 2004/01/23 09:41:32 rob Exp $ */ # ifdef HAVE_CONFIG_H # include "config.h" # endif # include "global.h" # include # include # include # ifdef HAVE_UNISTD_H # include # endif # ifdef HAVE_ASSERT_H # include # endif # include "id3tag.h" # include "file.h" # include "tag.h" # include "field.h" struct filetag { struct id3_tag *tag; unsigned long location; id3_length_t length; }; struct id3_file { FILE *iofile; enum id3_file_mode mode; char *path; int flags; struct id3_tag *primary; unsigned int ntags; struct filetag *tags; }; enum { ID3_FILE_FLAG_ID3V1 = 0x0001 }; /* * NAME: query_tag() * DESCRIPTION: check for a tag at a file's current position */ static signed long query_tag(FILE *iofile) { fpos_t save_position; id3_byte_t query[ID3_TAG_QUERYSIZE]; signed long size; if (fgetpos(iofile, &save_position) == -1) return 0; size = id3_tag_query(query, fread(query, 1, sizeof(query), iofile)); if (fsetpos(iofile, &save_position) == -1) return 0; return size; } /* * NAME: read_tag() * DESCRIPTION: read and parse a tag at a file's current position */ static struct id3_tag *read_tag(FILE *iofile, id3_length_t size) { id3_byte_t *data; struct id3_tag *tag = 0; data = malloc(size); if (data) { if (fread(data, size, 1, iofile) == 1) tag = id3_tag_parse(data, size); free(data); } return tag; } /* * NAME: update_primary() * DESCRIPTION: update the primary tag with data from a new tag */ static int update_primary(struct id3_tag *tag, struct id3_tag const *new) { unsigned int i; struct id3_frame *frame; if (new) { if (!(new->extendedflags & ID3_TAG_EXTENDEDFLAG_TAGISANUPDATE)) id3_tag_clearframes(tag); i = 0; while ((frame = id3_tag_findframe(new, 0, i++))) { if (id3_tag_attachframe(tag, frame) == -1) return -1; } } return 0; } /* * NAME: tag_compare() * DESCRIPTION: tag sort function for qsort() */ static int tag_compare(const void *a, const void *b) { struct filetag const *tag1 = a, *tag2 = b; if (tag1->location < tag2->location) return -1; else if (tag1->location > tag2->location) return +1; return 0; } /* * NAME: add_filetag() * DESCRIPTION: add a new file tag entry */ static int add_filetag(struct id3_file *file, struct filetag const *filetag) { struct filetag *tags; tags = realloc(file->tags, (file->ntags + 1) * sizeof(*tags)); if (tags == 0) return -1; file->tags = tags; file->tags[file->ntags++] = *filetag; /* sort tags by location */ if (file->ntags > 1) qsort(file->tags, file->ntags, sizeof(file->tags[0]), tag_compare); return 0; } /* * NAME: del_filetag() * DESCRIPTION: delete a file tag entry */ static void del_filetag(struct id3_file *file, unsigned int index) { assert(index < file->ntags); while (index < file->ntags - 1) { file->tags[index] = file->tags[index + 1]; ++index; } --file->ntags; } /* * NAME: add_tag() * DESCRIPTION: read, parse, and add a tag to a file structure */ static struct id3_tag *add_tag(struct id3_file *file, id3_length_t length) { long location; unsigned int i; struct filetag filetag; struct id3_tag *tag; location = ftell(file->iofile); if (location == -1) return 0; /* check for duplication/overlap */ { unsigned long begin1, end1, begin2, end2; begin1 = location; end1 = begin1 + length; for (i = 0; i < file->ntags; ++i) { begin2 = file->tags[i].location; end2 = begin2 + file->tags[i].length; if (begin1 == begin2 && end1 == end2) return file->tags[i].tag; /* duplicate */ if (begin1 < end2 && end1 > begin2) return 0; /* overlap */ } } tag = read_tag(file->iofile, length); filetag.tag = tag; filetag.location = location; filetag.length = length; if (add_filetag(file, &filetag) == -1 || update_primary(file->primary, tag) == -1) { if (tag) id3_tag_delete(tag); return 0; } if (tag) id3_tag_addref(tag); return tag; } /* * NAME: search_tags() * DESCRIPTION: search for tags in a file */ static int search_tags(struct id3_file *file) { fpos_t save_position; signed long size; /* * save the current seek position * * We also verify the stream is seekable by calling fsetpos(), since * fgetpos() alone is not reliable enough for this purpose. * * [Apparently not even fsetpos() is sufficient under Win32.] */ if (fgetpos(file->iofile, &save_position) == -1 || fsetpos(file->iofile, &save_position) == -1) return -1; /* look for an ID3v1 tag */ if (fseek(file->iofile, -128, SEEK_END) == 0) { size = query_tag(file->iofile); if (size > 0) { struct id3_tag const *tag; tag = add_tag(file, size); /* if this is indeed an ID3v1 tag, mark the file so */ if (tag && (ID3_TAG_VERSION_MAJOR(id3_tag_version(tag)) == 1)) file->flags |= ID3_FILE_FLAG_ID3V1; } } /* look for a tag at the beginning of the file */ rewind(file->iofile); size = query_tag(file->iofile); if (size > 0) { struct id3_tag const *tag; struct id3_frame const *frame; tag = add_tag(file, size); /* locate tags indicated by SEEK frames */ while (tag && (frame = id3_tag_findframe(tag, "SEEK", 0))) { long seek; seek = id3_field_getint(id3_frame_field(frame, 0)); if (seek < 0 || fseek(file->iofile, seek, SEEK_CUR) == -1) break; size = query_tag(file->iofile); tag = (size > 0) ? add_tag(file, size) : 0; } } /* look for a tag at the end of the file (before any ID3v1 tag) */ if (fseek(file->iofile, ((file->flags & ID3_FILE_FLAG_ID3V1) ? -128 : 0) + -10, SEEK_END) == 0) { size = query_tag(file->iofile); if (size < 0 && fseek(file->iofile, size, SEEK_CUR) == 0) { size = query_tag(file->iofile); if (size > 0) add_tag(file, size); } } clearerr(file->iofile); /* restore seek position */ if (fsetpos(file->iofile, &save_position) == -1) return -1; /* set primary tag options and target padded length for convenience */ if ((file->ntags > 0 && !(file->flags & ID3_FILE_FLAG_ID3V1)) || (file->ntags > 1 && (file->flags & ID3_FILE_FLAG_ID3V1))) { if (file->tags[0].location == 0) id3_tag_setlength(file->primary, file->tags[0].length); else id3_tag_options(file->primary, ID3_TAG_OPTION_APPENDEDTAG, ~0); } return 0; } /* * NAME: finish_file() * DESCRIPTION: release memory associated with a file */ static void finish_file(struct id3_file *file) { unsigned int i; if (file->path) free(file->path); if (file->primary) { id3_tag_delref(file->primary); id3_tag_delete(file->primary); } for (i = 0; i < file->ntags; ++i) { struct id3_tag *tag; tag = file->tags[i].tag; if (tag) { id3_tag_delref(tag); id3_tag_delete(tag); } } if (file->tags) free(file->tags); free(file); } /* * NAME: new_file() * DESCRIPTION: create a new file structure and load tags */ static struct id3_file *new_file(FILE *iofile, enum id3_file_mode mode, char const *path) { struct id3_file *file; file = malloc(sizeof(*file)); if (file == 0) goto fail; file->iofile = iofile; file->mode = mode; file->path = path ? strdup(path) : 0; file->flags = 0; file->ntags = 0; file->tags = 0; file->primary = id3_tag_new(); if (file->primary == 0) goto fail; id3_tag_addref(file->primary); /* load tags from the file */ if (search_tags(file) == -1) goto fail; id3_tag_options(file->primary, ID3_TAG_OPTION_ID3V1, (file->flags & ID3_FILE_FLAG_ID3V1) ? ~0 : 0); if (0) { fail: if (file) { finish_file(file); file = 0; } } return file; } /* * NAME: file->open() * DESCRIPTION: open a file given its pathname */ struct id3_file *id3_file_open(char const *path, enum id3_file_mode mode) { FILE *iofile; struct id3_file *file; assert(path); iofile = fopen(path, (mode == ID3_FILE_MODE_READWRITE) ? "r+b" : "rb"); if (iofile == 0) return 0; file = new_file(iofile, mode, path); if (file == 0) fclose(iofile); return file; } /* * NAME: file->fdopen() * DESCRIPTION: open a file using an existing file descriptor */ struct id3_file *id3_file_fdopen(int fd, enum id3_file_mode mode) { # if 1 || defined(HAVE_UNISTD_H) FILE *iofile; struct id3_file *file; iofile = fdopen(fd, (mode == ID3_FILE_MODE_READWRITE) ? "r+b" : "rb"); if (iofile == 0) return 0; file = new_file(iofile, mode, 0); if (file == 0) { int save_fd; /* close iofile without closing fd */ save_fd = dup(fd); fclose(iofile); dup2(save_fd, fd); close(save_fd); } return file; # else return 0; # endif } /* * NAME: file->close() * DESCRIPTION: close a file and delete its associated tags */ int id3_file_close(struct id3_file *file) { int result = 0; assert(file); if (fclose(file->iofile) == EOF) result = -1; finish_file(file); return result; } /* * NAME: file->tag() * DESCRIPTION: return the primary tag structure for a file */ struct id3_tag *id3_file_tag(struct id3_file const *file) { assert(file); return file->primary; } /* * NAME: v1_write() * DESCRIPTION: write ID3v1 tag modifications to a file */ static int v1_write(struct id3_file *file, id3_byte_t const *data, id3_length_t length) { assert(!data || length == 128); if (data) { long location; if (fseek(file->iofile, (file->flags & ID3_FILE_FLAG_ID3V1) ? -128 : 0, SEEK_END) == -1 || (location = ftell(file->iofile)) == -1 || fwrite(data, 128, 1, file->iofile) != 1 || fflush(file->iofile) == EOF) return -1; /* add file tag reference */ if (!(file->flags & ID3_FILE_FLAG_ID3V1)) { struct filetag filetag; filetag.tag = 0; filetag.location = location; filetag.length = 128; if (add_filetag(file, &filetag) == -1) return -1; file->flags |= ID3_FILE_FLAG_ID3V1; } } # if defined(HAVE_FTRUNCATE) else if (file->flags & ID3_FILE_FLAG_ID3V1) { long length; if (fseek(file->iofile, 0, SEEK_END) == -1) return -1; length = ftell(file->iofile); if (length == -1 || (length >= 0 && length < 128)) return -1; if (ftruncate(fileno(file->iofile), length - 128) == -1) return -1; /* delete file tag reference */ del_filetag(file, file->ntags - 1); file->flags &= ~ID3_FILE_FLAG_ID3V1; } # endif return 0; } /* * NAME: v2_write() * DESCRIPTION: write ID3v2 tag modifications to a file */ static int v2_write(struct id3_file *file, id3_byte_t const *data, id3_length_t length) { assert(!data || length > 0); if (data && ((file->ntags == 1 && !(file->flags & ID3_FILE_FLAG_ID3V1)) || (file->ntags == 2 && (file->flags & ID3_FILE_FLAG_ID3V1))) && file->tags[0].length == length) { /* easy special case: rewrite existing tag in-place */ if (fseek(file->iofile, file->tags[0].location, SEEK_SET) == -1 || fwrite(data, length, 1, file->iofile) != 1 || fflush(file->iofile) == EOF) return -1; goto done; } /* hard general case: rewrite entire file */ /* ... */ done: return 0; } /* * NAME: file->update() * DESCRIPTION: rewrite tag(s) to a file */ int id3_file_update(struct id3_file *file) { int options, result = 0; id3_length_t v1size = 0, v2size = 0; id3_byte_t id3v1_data[128], *id3v1 = 0, *id3v2 = 0; assert(file); if (file->mode != ID3_FILE_MODE_READWRITE) return -1; options = id3_tag_options(file->primary, 0, 0); /* render ID3v1 */ if (options & ID3_TAG_OPTION_ID3V1) { v1size = id3_tag_render(file->primary, 0); if (v1size) { assert(v1size == sizeof(id3v1_data)); v1size = id3_tag_render(file->primary, id3v1_data); if (v1size) { assert(v1size == sizeof(id3v1_data)); id3v1 = id3v1_data; } } } /* render ID3v2 */ id3_tag_options(file->primary, ID3_TAG_OPTION_ID3V1, 0); v2size = id3_tag_render(file->primary, 0); if (v2size) { id3v2 = malloc(v2size); if (id3v2 == 0) goto fail; v2size = id3_tag_render(file->primary, id3v2); if (v2size == 0) { free(id3v2); id3v2 = 0; } } /* write tags */ if (v2_write(file, id3v2, v2size) == -1 || v1_write(file, id3v1, v1size) == -1) goto fail; rewind(file->iofile); /* update file tags array? ... */ if (0) { fail: result = -1; } /* clean up; restore tag options */ if (id3v2) free(id3v2); id3_tag_options(file->primary, ~0, options); return result; }