/* * Copyright (c) 2007 Vreixo Formoso * Copyright (c) 2007 Mario Danic * Copyright (c) 2009 Thomas Schmitt * * This file is part of the libisofs project; you can redistribute it and/or * modify it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. See COPYING file for details. */ /* Use the copy of the struct burn_source definition in libisofs.h */ #define LIBISOFS_WITHOUT_LIBBURN yes #include "libisofs.h" #include "ecma119.h" #include "joliet.h" #include "iso1999.h" #include "eltorito.h" #include "ecma119_tree.h" #include "filesrc.h" #include "image.h" #include "writer.h" #include "messages.h" #include "rockridge.h" #include "util.h" #include "system_area.h" #include #include #include #include #include /* * TODO #00011 : guard against bad path table usage with more than 65535 dirs * image with more than 65535 directories have path_table related problems * due to 16 bits parent id. Note that this problem only affects to folders * that are parent of another folder. */ static void ecma119_image_free(Ecma119Image *t) { size_t i; ecma119_node_free(t->root); iso_image_unref(t->image); iso_rbtree_destroy(t->files, iso_file_src_free); iso_ring_buffer_free(t->buffer); for (i = 0; i < t->nwriters; ++i) { IsoImageWriter *writer = t->writers[i]; writer->free_data(writer); free(writer); } free(t->input_charset); free(t->output_charset); free(t->writers); free(t); } /** * Check if we should add version number ";" to the given node name. */ static int need_version_number(Ecma119Image *t, Ecma119Node *n) { if (t->omit_version_numbers) { return 0; } if (n->type == ECMA119_DIR || n->type == ECMA119_PLACEHOLDER) { return 0; } else { return 1; } } /** * Compute the size of a directory entry for a single node */ static size_t calc_dirent_len(Ecma119Image *t, Ecma119Node *n) { int ret = n->iso_name ? strlen(n->iso_name) + 33 : 34; if (need_version_number(t, n)) { ret += 2; /* take into account version numbers */ } if (ret % 2) ret++; return ret; } /** * Computes the total size of all directory entries of a single dir, * acording to ECMA-119 6.8.1.1 * * This also take into account the size needed for RR entries and * SUSP continuation areas (SUSP, 5.1). * * @param ce * Will be filled with the size needed for Continuation Areas * @return * The size needed for all dir entries of the given dir, without * taking into account the continuation areas. */ static size_t calc_dir_size(Ecma119Image *t, Ecma119Node *dir, size_t *ce) { size_t i, len; size_t ce_len = 0; /* size of "." and ".." entries */ len = 34 + 34; if (t->rockridge) { len += rrip_calc_len(t, dir, 1, 255 - 34, &ce_len); *ce += ce_len; len += rrip_calc_len(t, dir, 2, 255 - 34, &ce_len); *ce += ce_len; } for (i = 0; i < dir->info.dir->nchildren; ++i) { size_t remaining; int section, nsections; Ecma119Node *child = dir->info.dir->children[i]; nsections = (child->type == ECMA119_FILE) ? child->info.file->nsections : 1; for (section = 0; section < nsections; ++section) { size_t dirent_len = calc_dirent_len(t, child); if (t->rockridge) { dirent_len += rrip_calc_len(t, child, 0, 255 - dirent_len, &ce_len); *ce += ce_len; } remaining = BLOCK_SIZE - (len % BLOCK_SIZE); if (dirent_len > remaining) { /* child directory entry doesn't fit on block */ len += remaining + dirent_len; } else { len += dirent_len; } } } /* * The size of a dir is always a multiple of block size, as we must add * the size of the unused space after the last directory record * (ECMA-119, 6.8.1.3) */ len = ROUND_UP(len, BLOCK_SIZE); /* cache the len */ dir->info.dir->len = len; return len; } static void calc_dir_pos(Ecma119Image *t, Ecma119Node *dir) { size_t i, len; size_t ce_len = 0; t->ndirs++; dir->info.dir->block = t->curblock; len = calc_dir_size(t, dir, &ce_len); t->curblock += DIV_UP(len, BLOCK_SIZE); if (t->rockridge) { t->curblock += DIV_UP(ce_len, BLOCK_SIZE); } for (i = 0; i < dir->info.dir->nchildren; i++) { Ecma119Node *child = dir->info.dir->children[i]; if (child->type == ECMA119_DIR) { calc_dir_pos(t, child); } } } /** * Compute the length of the path table, in bytes. */ static uint32_t calc_path_table_size(Ecma119Node *dir) { uint32_t size; size_t i; /* size of path table for this entry */ size = 8; size += dir->iso_name ? strlen(dir->iso_name) : 1; size += (size % 2); /* and recurse */ for (i = 0; i < dir->info.dir->nchildren; i++) { Ecma119Node *child = dir->info.dir->children[i]; if (child->type == ECMA119_DIR) { size += calc_path_table_size(child); } } return size; } static int ecma119_writer_compute_data_blocks(IsoImageWriter *writer) { Ecma119Image *target; uint32_t path_table_size; if (writer == NULL) { return ISO_ASSERT_FAILURE; } target = writer->target; /* compute position of directories */ iso_msg_debug(target->image->id, "Computing position of dir structure"); target->ndirs = 0; calc_dir_pos(target, target->root); /* compute length of pathlist */ iso_msg_debug(target->image->id, "Computing length of pathlist"); path_table_size = calc_path_table_size(target->root); /* compute location for path tables */ target->l_path_table_pos = target->curblock; target->curblock += DIV_UP(path_table_size, BLOCK_SIZE); target->m_path_table_pos = target->curblock; target->curblock += DIV_UP(path_table_size, BLOCK_SIZE); target->path_table_size = path_table_size; return ISO_SUCCESS; } /** * Write a single directory record (ECMA-119, 9.1) * * @param file_id * if >= 0, we use it instead of the filename (for "." and ".." entries). * @param len_fi * Computed length of the file identifier. Total size of the directory * entry will be len + 33 + padding if needed (ECMA-119, 9.1.12) * @param info * SUSP entries for the given directory record. It will be NULL for the * root directory record in the PVD (ECMA-119, 8.4.18) (in order to * distinguish it from the "." entry in the root directory) */ static void write_one_dir_record(Ecma119Image *t, Ecma119Node *node, int file_id, uint8_t *buf, size_t len_fi, struct susp_info *info, int extent) { uint32_t len; uint32_t block; uint8_t len_dr; /*< size of dir entry without SUSP fields */ int multi_extend = 0; uint8_t *name = (file_id >= 0) ? (uint8_t*)&file_id : (uint8_t*)node->iso_name; struct ecma119_dir_record *rec = (struct ecma119_dir_record*)buf; IsoNode *iso; len_dr = 33 + len_fi + (len_fi % 2 ? 0 : 1); memcpy(rec->file_id, name, len_fi); if (need_version_number(t, node)) { len_dr += 2; rec->file_id[len_fi++] = ';'; rec->file_id[len_fi++] = '1'; } if (node->type == ECMA119_DIR) { /* use the cached length */ len = node->info.dir->len; block = node->info.dir->block; } else if (node->type == ECMA119_FILE) { block = node->info.file->sections[extent].block; len = node->info.file->sections[extent].size; multi_extend = (node->info.file->nsections - 1 == extent) ? 0 : 1; } else { /* * for nodes other than files and dirs, we set both * len and block to 0 */ len = 0; block = 0; } /* * For ".." entry we need to write the parent info! */ if (file_id == 1 && node->parent) node = node->parent; rec->len_dr[0] = len_dr + (info != NULL ? info->suf_len : 0); iso_bb(rec->block, block, 4); iso_bb(rec->length, len, 4); if(t->dir_rec_mtime) { iso= node->node; iso_datetime_7(rec->recording_time, t->replace_timestamps ? t->timestamp : iso->mtime, t->always_gmt); } else { iso_datetime_7(rec->recording_time, t->now, t->always_gmt); } rec->flags[0] = ((node->type == ECMA119_DIR) ? 2 : 0) | (multi_extend ? 0x80 : 0); iso_bb(rec->vol_seq_number, 1, 2); rec->len_fi[0] = len_fi; /* * and finally write the SUSP fields. */ if (info != NULL) { rrip_write_susp_fields(t, info, buf + len_dr); } } static char *get_relaxed_vol_id(Ecma119Image *t, const char *name) { int ret; if (name == NULL) { return NULL; } if (strcmp(t->input_charset, t->output_charset)) { /* charset conversion needed */ char *str; ret = strconv(name, t->input_charset, t->output_charset, &str); if (ret == ISO_SUCCESS) { return str; } iso_msg_submit(t->image->id, ISO_FILENAME_WRONG_CHARSET, ret, "Charset conversion error. Cannot convert from %s to %s", t->input_charset, t->output_charset); } return strdup(name); } /** * Write the Primary Volume Descriptor (ECMA-119, 8.4) */ static int ecma119_writer_write_vol_desc(IsoImageWriter *writer) { IsoImage *image; Ecma119Image *t; struct ecma119_pri_vol_desc vol; char *vol_id, *pub_id, *data_id, *volset_id; char *system_id, *application_id, *copyright_file_id; char *abstract_file_id, *biblio_file_id; if (writer == NULL) { return ISO_ASSERT_FAILURE; } t = writer->target; image = t->image; iso_msg_debug(image->id, "Write Primary Volume Descriptor"); memset(&vol, 0, sizeof(struct ecma119_pri_vol_desc)); if (t->relaxed_vol_atts) { vol_id = get_relaxed_vol_id(t, image->volume_id); volset_id = get_relaxed_vol_id(t, image->volset_id); } else { str2d_char(t->input_charset, image->volume_id, &vol_id); str2d_char(t->input_charset, image->volset_id, &volset_id); } str2a_char(t->input_charset, image->publisher_id, &pub_id); str2a_char(t->input_charset, image->data_preparer_id, &data_id); str2a_char(t->input_charset, image->system_id, &system_id); str2a_char(t->input_charset, image->application_id, &application_id); str2d_char(t->input_charset, image->copyright_file_id, ©right_file_id); str2d_char(t->input_charset, image->abstract_file_id, &abstract_file_id); str2d_char(t->input_charset, image->biblio_file_id, &biblio_file_id); vol.vol_desc_type[0] = 1; memcpy(vol.std_identifier, "CD001", 5); vol.vol_desc_version[0] = 1; strncpy_pad((char*)vol.system_id, system_id, 32); strncpy_pad((char*)vol.volume_id, vol_id, 32); iso_bb(vol.vol_space_size, t->vol_space_size, 4); iso_bb(vol.vol_set_size, 1, 2); iso_bb(vol.vol_seq_number, 1, 2); iso_bb(vol.block_size, BLOCK_SIZE, 2); iso_bb(vol.path_table_size, t->path_table_size, 4); iso_lsb(vol.l_path_table_pos, t->l_path_table_pos, 4); iso_msb(vol.m_path_table_pos, t->m_path_table_pos, 4); write_one_dir_record(t, t->root, 0, vol.root_dir_record, 1, NULL, 0); strncpy_pad((char*)vol.vol_set_id, volset_id, 128); strncpy_pad((char*)vol.publisher_id, pub_id, 128); strncpy_pad((char*)vol.data_prep_id, data_id, 128); strncpy_pad((char*)vol.application_id, application_id, 128); strncpy_pad((char*)vol.copyright_file_id, copyright_file_id, 37); strncpy_pad((char*)vol.abstract_file_id, abstract_file_id, 37); strncpy_pad((char*)vol.bibliographic_file_id, biblio_file_id, 37); iso_datetime_17(vol.vol_creation_time, t->now, t->always_gmt); iso_datetime_17(vol.vol_modification_time, t->now, t->always_gmt); iso_datetime_17(vol.vol_effective_time, t->now, t->always_gmt); vol.file_structure_version[0] = 1; free(vol_id); free(volset_id); free(pub_id); free(data_id); free(system_id); free(application_id); free(copyright_file_id); free(abstract_file_id); free(biblio_file_id); /* Finally write the Volume Descriptor */ return iso_write(t, &vol, sizeof(struct ecma119_pri_vol_desc)); } static int write_one_dir(Ecma119Image *t, Ecma119Node *dir, Ecma119Node *parent) { int ret; uint8_t buffer[BLOCK_SIZE]; size_t i; size_t fi_len, len; struct susp_info info; /* buf will point to current write position on buffer */ uint8_t *buf = buffer; /* initialize buffer with 0s */ memset(buffer, 0, BLOCK_SIZE); /* * set susp_info to 0's, this way code for both plain ECMA-119 and * RR is very similar */ memset(&info, 0, sizeof(struct susp_info)); if (t->rockridge) { /* initialize the ce_block, it might be needed */ info.ce_block = dir->info.dir->block + DIV_UP(dir->info.dir->len, BLOCK_SIZE); } /* write the "." and ".." entries first */ if (t->rockridge) { ret = rrip_get_susp_fields(t, dir, 1, 255 - 32, &info); if (ret < 0) { return ret; } } len = 34 + info.suf_len; write_one_dir_record(t, dir, 0, buf, 1, &info, 0); buf += len; if (t->rockridge) { ret = rrip_get_susp_fields(t, dir, 2, 255 - 32, &info); if (ret < 0) { return ret; } } len = 34 + info.suf_len; write_one_dir_record(t, parent, 1, buf, 1, &info, 0); buf += len; for (i = 0; i < dir->info.dir->nchildren; i++) { int section, nsections; Ecma119Node *child = dir->info.dir->children[i]; fi_len = strlen(child->iso_name); nsections = (child->type == ECMA119_FILE) ? child->info.file->nsections : 1; for (section = 0; section < nsections; ++section) { /* compute len of directory entry */ len = fi_len + 33 + (fi_len % 2 ? 0 : 1); if (need_version_number(t, child)) { len += 2; } /* get the SUSP fields if rockridge is enabled */ if (t->rockridge) { ret = rrip_get_susp_fields(t, child, 0, 255 - len, &info); if (ret < 0) { return ret; } len += info.suf_len; } if ( (buf + len - buffer) > BLOCK_SIZE) { /* dir doesn't fit in current block */ ret = iso_write(t, buffer, BLOCK_SIZE); if (ret < 0) { return ret; } memset(buffer, 0, BLOCK_SIZE); buf = buffer; } /* write the directory entry in any case */ write_one_dir_record(t, child, -1, buf, fi_len, &info, section); buf += len; } } /* write the last block */ ret = iso_write(t, buffer, BLOCK_SIZE); if (ret < 0) { return ret; } /* write the Continuation Area if needed */ if (info.ce_len > 0) { ret = rrip_write_ce_fields(t, &info); } return ret; } static int write_dirs(Ecma119Image *t, Ecma119Node *root, Ecma119Node *parent) { int ret; size_t i; /* write all directory entries for this dir */ ret = write_one_dir(t, root, parent); if (ret < 0) { return ret; } /* recurse */ for (i = 0; i < root->info.dir->nchildren; i++) { Ecma119Node *child = root->info.dir->children[i]; if (child->type == ECMA119_DIR) { ret = write_dirs(t, child, root); if (ret < 0) { return ret; } } } return ISO_SUCCESS; } static int write_path_table(Ecma119Image *t, Ecma119Node **pathlist, int l_type) { size_t i, len; uint8_t buf[64]; /* 64 is just a convenient size larger enought */ struct ecma119_path_table_record *rec; void (*write_int)(uint8_t*, uint32_t, int); Ecma119Node *dir; uint32_t path_table_size; int parent = 0; int ret= ISO_SUCCESS; path_table_size = 0; write_int = l_type ? iso_lsb : iso_msb; for (i = 0; i < t->ndirs; i++) { dir = pathlist[i]; /* find the index of the parent in the table */ while ((i) && pathlist[parent] != dir->parent) { parent++; } /* write the Path Table Record (ECMA-119, 9.4) */ memset(buf, 0, 64); rec = (struct ecma119_path_table_record*) buf; rec->len_di[0] = dir->parent ? (uint8_t) strlen(dir->iso_name) : 1; rec->len_xa[0] = 0; write_int(rec->block, dir->info.dir->block, 4); write_int(rec->parent, parent + 1, 2); if (dir->parent) { memcpy(rec->dir_id, dir->iso_name, rec->len_di[0]); } len = 8 + rec->len_di[0] + (rec->len_di[0] % 2); ret = iso_write(t, buf, len); if (ret < 0) { /* error */ return ret; } path_table_size += len; } /* we need to fill the last block with zeros */ path_table_size %= BLOCK_SIZE; if (path_table_size) { uint8_t zeros[BLOCK_SIZE]; len = BLOCK_SIZE - path_table_size; memset(zeros, 0, len); ret = iso_write(t, zeros, len); } return ret; } static int write_path_tables(Ecma119Image *t) { int ret; size_t i, j, cur; Ecma119Node **pathlist; iso_msg_debug(t->image->id, "Writing ISO Path tables"); /* allocate temporal pathlist */ pathlist = malloc(sizeof(void*) * t->ndirs); if (pathlist == NULL) { return ISO_OUT_OF_MEM; } pathlist[0] = t->root; cur = 1; for (i = 0; i < t->ndirs; i++) { Ecma119Node *dir = pathlist[i]; for (j = 0; j < dir->info.dir->nchildren; j++) { Ecma119Node *child = dir->info.dir->children[j]; if (child->type == ECMA119_DIR) { pathlist[cur++] = child; } } } /* Write L Path Table */ ret = write_path_table(t, pathlist, 1); if (ret < 0) { goto write_path_tables_exit; } /* Write L Path Table */ ret = write_path_table(t, pathlist, 0); write_path_tables_exit: ; free(pathlist); return ret; } /** * Write both the directory structure (ECMA-119, 6.8) and the L and M * Path Tables (ECMA-119, 6.9). */ static int ecma119_writer_write_data(IsoImageWriter *writer) { int ret; Ecma119Image *t; if (writer == NULL) { return ISO_ASSERT_FAILURE; } t = writer->target; /* first of all, we write the directory structure */ ret = write_dirs(t, t->root, t->root); if (ret < 0) { return ret; } /* and write the path tables */ ret = write_path_tables(t); return ret; } static int ecma119_writer_free_data(IsoImageWriter *writer) { /* nothing to do */ return ISO_SUCCESS; } int ecma119_writer_create(Ecma119Image *target) { int ret; IsoImageWriter *writer; writer = malloc(sizeof(IsoImageWriter)); if (writer == NULL) { return ISO_OUT_OF_MEM; } writer->compute_data_blocks = ecma119_writer_compute_data_blocks; writer->write_vol_desc = ecma119_writer_write_vol_desc; writer->write_data = ecma119_writer_write_data; writer->free_data = ecma119_writer_free_data; writer->data = NULL; writer->target = target; /* add this writer to image */ target->writers[target->nwriters++] = writer; iso_msg_debug(target->image->id, "Creating low level ECMA-119 tree..."); ret = ecma119_tree_create(target); if (ret < 0) { return ret; } /* we need the volume descriptor */ target->curblock++; return ISO_SUCCESS; } /** compute how many padding bytes are needed */ static int pad_writer_compute_data_blocks(IsoImageWriter *writer) { Ecma119Image *target; if (writer == NULL) { return ISO_ASSERT_FAILURE; } target = writer->target; if (target->curblock < 32) { target->pad_blocks = 32 - target->curblock; target->curblock = 32; } return ISO_SUCCESS; } static int pad_writer_write_vol_desc(IsoImageWriter *writer) { /* nothing to do */ return ISO_SUCCESS; } static int pad_writer_write_data(IsoImageWriter *writer) { int ret; Ecma119Image *t; uint32_t pad[BLOCK_SIZE]; size_t i; if (writer == NULL) { return ISO_ASSERT_FAILURE; } t = writer->target; if (t->pad_blocks == 0) { return ISO_SUCCESS; } memset(pad, 0, BLOCK_SIZE); for (i = 0; i < t->pad_blocks; ++i) { ret = iso_write(t, pad, BLOCK_SIZE); if (ret < 0) { return ret; } } return ISO_SUCCESS; } static int pad_writer_free_data(IsoImageWriter *writer) { /* nothing to do */ return ISO_SUCCESS; } static int pad_writer_create(Ecma119Image *target) { IsoImageWriter *writer; writer = malloc(sizeof(IsoImageWriter)); if (writer == NULL) { return ISO_OUT_OF_MEM; } writer->compute_data_blocks = pad_writer_compute_data_blocks; writer->write_vol_desc = pad_writer_write_vol_desc; writer->write_data = pad_writer_write_data; writer->free_data = pad_writer_free_data; writer->data = NULL; writer->target = target; /* add this writer to image */ target->writers[target->nwriters++] = writer; return ISO_SUCCESS; } static void *write_function(void *arg) { int res; size_t i; uint8_t buf[BLOCK_SIZE]; IsoImageWriter *writer; Ecma119Image *target = (Ecma119Image*)arg; iso_msg_debug(target->image->id, "Starting image writing..."); target->bytes_written = (off_t) 0; target->percent_written = 0; /* Write System Area (ECMA-119, 6.2.1) */ { uint8_t sa[16 * BLOCK_SIZE]; res = iso_write_system_area(target, sa); if (res < 0) { goto write_error; } res = iso_write(target, sa, 16 * BLOCK_SIZE); if (res < 0) { goto write_error; } } /* write volume descriptors, one per writer */ iso_msg_debug(target->image->id, "Write volume descriptors"); for (i = 0; i < target->nwriters; ++i) { writer = target->writers[i]; res = writer->write_vol_desc(writer); if (res < 0) { goto write_error; } } /* write Volume Descriptor Set Terminator (ECMA-119, 8.3) */ { struct ecma119_vol_desc_terminator *vol; vol = (struct ecma119_vol_desc_terminator *) buf; vol->vol_desc_type[0] = 255; memcpy(vol->std_identifier, "CD001", 5); vol->vol_desc_version[0] = 1; res = iso_write(target, buf, BLOCK_SIZE); if (res < 0) { goto write_error; } } /* write data for each writer */ for (i = 0; i < target->nwriters; ++i) { writer = target->writers[i]; res = writer->write_data(writer); if (res < 0) { goto write_error; } } iso_ring_buffer_writer_close(target->buffer, 0); pthread_exit(NULL); write_error: ; if (res == ISO_CANCELED) { /* canceled */ iso_msg_submit(target->image->id, ISO_IMAGE_WRITE_CANCELED, 0, NULL); } else { /* image write error */ iso_msg_submit(target->image->id, ISO_WRITE_ERROR, res, "Image write error"); } iso_ring_buffer_writer_close(target->buffer, 1); pthread_exit(NULL); } static int ecma119_image_new(IsoImage *src, IsoWriteOpts *opts, Ecma119Image **img) { int ret, i, voldesc_size, nwriters; Ecma119Image *target; int el_torito_writer_index = -1, file_src_writer_index= -1; /* 1. Allocate target and copy opts there */ target = calloc(1, sizeof(Ecma119Image)); if (target == NULL) { return ISO_OUT_OF_MEM; } /* create the tree for file caching */ ret = iso_rbtree_new(iso_file_src_cmp, &(target->files)); if (ret < 0) { free(target); return ret; } target->image = src; iso_image_ref(src); target->iso_level = opts->level; target->rockridge = opts->rockridge; target->joliet = opts->joliet; target->iso1999 = opts->iso1999; target->hardlinks = opts->hardlinks; target->aaip = opts->aaip; target->always_gmt = opts->always_gmt; #ifndef Libisofs_hardlink_matcheR target->ino = 0; #endif target->omit_version_numbers = opts->omit_version_numbers | opts->max_37_char_filenames; target->allow_deep_paths = opts->allow_deep_paths; target->allow_longer_paths = opts->allow_longer_paths; target->max_37_char_filenames = opts->max_37_char_filenames; target->no_force_dots = opts->no_force_dots; target->allow_lowercase = opts->allow_lowercase; target->allow_full_ascii = opts->allow_full_ascii; target->relaxed_vol_atts = opts->relaxed_vol_atts; target->joliet_longer_paths = opts->joliet_longer_paths; target->rrip_version_1_10 = opts->rrip_version_1_10; target->rrip_1_10_px_ino = opts->rrip_1_10_px_ino; target->aaip_susp_1_10 = opts->aaip_susp_1_10; target->dir_rec_mtime = opts->dir_rec_mtime; target->sort_files = opts->sort_files; target->replace_uid = opts->replace_uid ? 1 : 0; target->replace_gid = opts->replace_gid ? 1 : 0; target->replace_dir_mode = opts->replace_dir_mode ? 1 : 0; target->replace_file_mode = opts->replace_file_mode ? 1 : 0; target->uid = opts->replace_uid == 2 ? opts->uid : 0; target->gid = opts->replace_gid == 2 ? opts->gid : 0; target->dir_mode = opts->replace_dir_mode == 2 ? opts->dir_mode : 0555; target->file_mode = opts->replace_file_mode == 2 ? opts->file_mode : 0444; target->now = time(NULL); target->ms_block = opts->ms_block; target->appendable = opts->appendable; target->replace_timestamps = opts->replace_timestamps ? 1 : 0; target->timestamp = opts->replace_timestamps == 2 ? opts->timestamp : target->now; /* el-torito? */ target->eltorito = (src->bootcat == NULL ? 0 : 1); target->catalog = src->bootcat; target->input_charset = strdup(iso_get_local_charset(0)); if (target->input_charset == NULL) { iso_image_unref(src); free(target); return ISO_OUT_OF_MEM; } if (opts->output_charset != NULL) { target->output_charset = strdup(opts->output_charset); } else { target->output_charset = strdup(target->input_charset); } if (target->output_charset == NULL) { iso_image_unref(src); free(target); return ISO_OUT_OF_MEM; } /* * 2. Based on those options, create needed writers: iso, joliet... * Each writer inits its structures and stores needed info into * target. * If the writer needs an volume descriptor, it increments image * current block. * Finally, create Writer for files. */ target->curblock = target->ms_block + 16; /* the number of writers is dependent of the extensions */ nwriters = 1 + 1 + 1; /* ECMA-119 + padding + files */ if (target->eltorito) { nwriters++; } if (target->joliet) { nwriters++; } if (target->iso1999) { nwriters++; } target->writers = malloc(nwriters * sizeof(void*)); if (target->writers == NULL) { iso_image_unref(src); free(target); return ISO_OUT_OF_MEM; } /* create writer for ECMA-119 structure */ ret = ecma119_writer_create(target); if (ret < 0) { goto target_cleanup; } /* create writer for El-Torito */ if (target->eltorito) { ret = eltorito_writer_create(target); if (ret < 0) { goto target_cleanup; } el_torito_writer_index = target->nwriters - 1; } /* create writer for Joliet structure */ if (target->joliet) { ret = joliet_writer_create(target); if (ret < 0) { goto target_cleanup; } } /* create writer for ISO 9660:1999 structure */ if (target->iso1999) { ret = iso1999_writer_create(target); if (ret < 0) { goto target_cleanup; } } voldesc_size = target->curblock - target->ms_block - 16; /* Volume Descriptor Set Terminator */ target->curblock++; /* * Create the writer for possible padding to ensure that in case of image * growing we can safety overwrite the first 64 KiB of image. */ ret = pad_writer_create(target); if (ret < 0) { goto target_cleanup; } /* create writer for file contents */ ret = iso_file_src_writer_create(target); if (ret < 0) { goto target_cleanup; } file_src_writer_index = target->nwriters - 1; /* * 3. * Call compute_data_blocks() in each Writer. * That function computes the size needed by its structures and * increments image current block propertly. */ for (i = 0; i < target->nwriters; ++i) { IsoImageWriter *writer = target->writers[i]; #define Libisofs_patch_ticket_145 yes #ifdef Libisofs_patch_ticket_145 /* Delaying boot image patching until new LBA is known */ if (i == el_torito_writer_index) continue; #endif /* Exposing address of data start to IsoWriteOpts */ if (i == file_src_writer_index) { opts->data_start_lba = target->curblock; } ret = writer->compute_data_blocks(writer); if (ret < 0) { goto target_cleanup; } } #ifdef Libisofs_patch_ticket_145 /* Now perform delayed image patching */ if (el_torito_writer_index >= 0) { IsoImageWriter *writer = target->writers[el_torito_writer_index]; ret = writer->compute_data_blocks(writer); if (ret < 0) { goto target_cleanup; } } #endif /* Libisofs_patch_ticket_145 */ /* create the ring buffer */ ret = iso_ring_buffer_new(opts->fifo_size, &target->buffer); if (ret < 0) { goto target_cleanup; } /* check if we need to provide a copy of volume descriptors */ if (opts->overwrite) { /* * Get a copy of the volume descriptors to be written in a DVD+RW * disc */ uint8_t *buf; struct ecma119_vol_desc_terminator *vol; IsoImageWriter *writer; /* * In the PVM to be written in the 16th sector of the disc, we * need to specify the full size. */ target->vol_space_size = target->curblock; /* write volume descriptor */ for (i = 0; i < target->nwriters; ++i) { writer = target->writers[i]; ret = writer->write_vol_desc(writer); if (ret < 0) { iso_msg_debug(target->image->id, "Error writing overwrite volume descriptors"); goto target_cleanup; } } /* write the system area */ ret = iso_write_system_area(target, opts->overwrite); if (ret < 0) { iso_msg_debug(target->image->id, "Error writing system area to overwrite buffer"); goto target_cleanup; } /* skip the first 16 blocks (system area) */ buf = opts->overwrite + 16 * BLOCK_SIZE; voldesc_size *= BLOCK_SIZE; /* copy the volume descriptors to the overwrite buffer... */ ret = iso_ring_buffer_read(target->buffer, buf, voldesc_size); if (ret < 0) { iso_msg_debug(target->image->id, "Error reading overwrite volume descriptors"); goto target_cleanup; } /* ...including the vol desc terminator */ memset(buf + voldesc_size, 0, BLOCK_SIZE); vol = (struct ecma119_vol_desc_terminator*) (buf + voldesc_size); vol->vol_desc_type[0] = 255; memcpy(vol->std_identifier, "CD001", 5); vol->vol_desc_version[0] = 1; } /* * The volume space size is just the size of the last session, in * case of ms images. */ target->vol_space_size = target->curblock - target->ms_block; target->total_size = (off_t) target->vol_space_size * BLOCK_SIZE; /* 4. Create and start writting thread */ /* ensure the thread is created joinable */ pthread_attr_init(&(target->th_attr)); pthread_attr_setdetachstate(&(target->th_attr), PTHREAD_CREATE_JOINABLE); ret = pthread_create(&(target->wthread), &(target->th_attr), write_function, (void *) target); if (ret != 0) { iso_msg_submit(target->image->id, ISO_THREAD_ERROR, 0, "Cannot create writer thread"); ret = ISO_THREAD_ERROR; goto target_cleanup; } /* * Notice that once we reach this point, target belongs to the writer * thread and should not be modified until the writer thread finished. * There're however, specific fields in target that can be accessed, or * even modified by the read thread (look inside bs_* functions) */ *img = target; return ISO_SUCCESS; target_cleanup: ; ecma119_image_free(target); return ret; } static int bs_read(struct burn_source *bs, unsigned char *buf, int size) { int ret; Ecma119Image *t = (Ecma119Image*)bs->data; ret = iso_ring_buffer_read(t->buffer, buf, size); if (ret == ISO_SUCCESS) { return size; } else if (ret < 0) { /* error */ iso_msg_submit(t->image->id, ISO_BUF_READ_ERROR, ret, NULL); return -1; } else { /* EOF */ return 0; } } static off_t bs_get_size(struct burn_source *bs) { Ecma119Image *target = (Ecma119Image*)bs->data; return target->total_size; } static void bs_free_data(struct burn_source *bs) { int st; Ecma119Image *target = (Ecma119Image*)bs->data; st = iso_ring_buffer_get_status(bs, NULL, NULL); /* was read already finished (i.e, canceled)? */ if (st < 4) { /* forces writer to stop if it is still running */ iso_ring_buffer_reader_close(target->buffer, 0); /* wait until writer thread finishes */ pthread_join(target->wthread, NULL); iso_msg_debug(target->image->id, "Writer thread joined"); } iso_msg_debug(target->image->id, "Ring buffer was %d times full and %d times empty", iso_ring_buffer_get_times_full(target->buffer), iso_ring_buffer_get_times_empty(target->buffer)); /* now we can safety free target */ ecma119_image_free(target); } static int bs_cancel(struct burn_source *bs) { int st; size_t cap, free; Ecma119Image *target = (Ecma119Image*)bs->data; st = iso_ring_buffer_get_status(bs, &cap, &free); if (free == cap && (st == 2 || st == 3)) { /* image was already consumed */ iso_ring_buffer_reader_close(target->buffer, 0); } else { iso_msg_debug(target->image->id, "Reader thread being cancelled"); /* forces writer to stop if it is still running */ iso_ring_buffer_reader_close(target->buffer, ISO_CANCELED); } /* wait until writer thread finishes */ pthread_join(target->wthread, NULL); iso_msg_debug(target->image->id, "Writer thread joined"); return ISO_SUCCESS; } static int bs_set_size(struct burn_source *bs, off_t size) { Ecma119Image *target = (Ecma119Image*)bs->data; /* * just set the value to be returned by get_size. This is not used at * all by libisofs, it is here just for helping libburn to correctly pad * the image if needed. */ target->total_size = size; return 1; } int iso_image_create_burn_source(IsoImage *image, IsoWriteOpts *opts, struct burn_source **burn_src) { int ret; struct burn_source *source; Ecma119Image *target= NULL; if (image == NULL || opts == NULL || burn_src == NULL) { return ISO_NULL_POINTER; } source = calloc(1, sizeof(struct burn_source)); if (source == NULL) { return ISO_OUT_OF_MEM; } ret = ecma119_image_new(image, opts, &target); if (ret < 0) { free(source); return ret; } source->refcount = 1; source->version = 1; source->read = NULL; source->get_size = bs_get_size; source->set_size = bs_set_size; source->free_data = bs_free_data; source->read_xt = bs_read; source->cancel = bs_cancel; source->data = target; *burn_src = source; return ISO_SUCCESS; } int iso_write(Ecma119Image *target, void *buf, size_t count) { int ret; ret = iso_ring_buffer_write(target->buffer, buf, count); if (ret == 0) { /* reader cancelled */ return ISO_CANCELED; } /* total size is 0 when writing the overwrite buffer */ if (ret > 0 && (target->total_size != (off_t) 0)){ unsigned int kbw, kbt; int percent; target->bytes_written += (off_t) count; kbw = (unsigned int) (target->bytes_written >> 10); kbt = (unsigned int) (target->total_size >> 10); percent = (kbw * 100) / kbt; /* only report in 5% chunks */ if (percent >= target->percent_written + 5) { iso_msg_debug(target->image->id, "Processed %u of %u KB (%d %%)", kbw, kbt, percent); target->percent_written = percent; } } return ret; } int iso_write_opts_new(IsoWriteOpts **opts, int profile) { IsoWriteOpts *wopts; if (opts == NULL) { return ISO_NULL_POINTER; } if (profile < 0 || profile > 2) { return ISO_WRONG_ARG_VALUE; } wopts = calloc(1, sizeof(IsoWriteOpts)); if (wopts == NULL) { return ISO_OUT_OF_MEM; } switch (profile) { case 0: wopts->level = 1; break; case 1: wopts->level = 3; wopts->rockridge = 1; break; case 2: wopts->level = 2; wopts->rockridge = 1; wopts->joliet = 1; wopts->replace_dir_mode = 1; wopts->replace_file_mode = 1; wopts->replace_uid = 1; wopts->replace_gid = 1; wopts->replace_timestamps = 1; wopts->always_gmt = 1; break; default: /* should never happen */ free(wopts); return ISO_ASSERT_FAILURE; break; } wopts->fifo_size = 1024; /* 2 MB buffer */ wopts->sort_files = 1; /* file sorting is always good */ *opts = wopts; return ISO_SUCCESS; } void iso_write_opts_free(IsoWriteOpts *opts) { if (opts == NULL) { return; } free(opts->output_charset); free(opts); } int iso_write_opts_set_iso_level(IsoWriteOpts *opts, int level) { if (opts == NULL) { return ISO_NULL_POINTER; } if (level != 1 && level != 2 && level != 3) { return ISO_WRONG_ARG_VALUE; } opts->level = level; return ISO_SUCCESS; } int iso_write_opts_set_rockridge(IsoWriteOpts *opts, int enable) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->rockridge = enable ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_joliet(IsoWriteOpts *opts, int enable) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->joliet = enable ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_iso1999(IsoWriteOpts *opts, int enable) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->iso1999 = enable ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_hardlinks(IsoWriteOpts *opts, int enable) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->hardlinks = enable ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_aaip(IsoWriteOpts *opts, int enable) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->aaip = enable ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_omit_version_numbers(IsoWriteOpts *opts, int omit) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->omit_version_numbers = omit ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_allow_deep_paths(IsoWriteOpts *opts, int allow) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->allow_deep_paths = allow ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_allow_longer_paths(IsoWriteOpts *opts, int allow) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->allow_longer_paths = allow ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_max_37_char_filenames(IsoWriteOpts *opts, int allow) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->max_37_char_filenames = allow ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_no_force_dots(IsoWriteOpts *opts, int no) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->no_force_dots = no ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_allow_lowercase(IsoWriteOpts *opts, int allow) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->allow_lowercase = allow ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_allow_full_ascii(IsoWriteOpts *opts, int allow) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->allow_full_ascii = allow ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_relaxed_vol_atts(IsoWriteOpts *opts, int allow) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->relaxed_vol_atts = allow ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_joliet_longer_paths(IsoWriteOpts *opts, int allow) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->joliet_longer_paths = allow ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_rrip_version_1_10(IsoWriteOpts *opts, int oldvers) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->rrip_version_1_10 = oldvers ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_rrip_1_10_px_ino(IsoWriteOpts *opts, int enable) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->rrip_1_10_px_ino = enable ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_aaip_susp_1_10(IsoWriteOpts *opts, int oldvers) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->aaip_susp_1_10 = oldvers ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_dir_rec_mtime(IsoWriteOpts *opts, int allow) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->dir_rec_mtime = allow ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_sort_files(IsoWriteOpts *opts, int sort) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->sort_files = sort ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_replace_mode(IsoWriteOpts *opts, int dir_mode, int file_mode, int uid, int gid) { if (opts == NULL) { return ISO_NULL_POINTER; } if (dir_mode < 0 || dir_mode > 2) { return ISO_WRONG_ARG_VALUE; } if (file_mode < 0 || file_mode > 2) { return ISO_WRONG_ARG_VALUE; } if (uid < 0 || uid > 2) { return ISO_WRONG_ARG_VALUE; } if (gid < 0 || gid > 2) { return ISO_WRONG_ARG_VALUE; } opts->replace_dir_mode = dir_mode; opts->replace_file_mode = file_mode; opts->replace_uid = uid; opts->replace_gid = gid; return ISO_SUCCESS; } int iso_write_opts_set_default_dir_mode(IsoWriteOpts *opts, mode_t dir_mode) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->dir_mode = dir_mode; return ISO_SUCCESS; } int iso_write_opts_set_default_file_mode(IsoWriteOpts *opts, mode_t file_mode) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->file_mode = file_mode; return ISO_SUCCESS; } int iso_write_opts_set_default_uid(IsoWriteOpts *opts, uid_t uid) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->uid = uid; return ISO_SUCCESS; } int iso_write_opts_set_default_gid(IsoWriteOpts *opts, gid_t gid) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->gid = gid; return ISO_SUCCESS; } int iso_write_opts_set_replace_timestamps(IsoWriteOpts *opts, int replace) { if (opts == NULL) { return ISO_NULL_POINTER; } if (replace < 0 || replace > 2) { return ISO_WRONG_ARG_VALUE; } opts->replace_timestamps = replace; return ISO_SUCCESS; } int iso_write_opts_set_default_timestamp(IsoWriteOpts *opts, time_t timestamp) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->timestamp = timestamp; return ISO_SUCCESS; } int iso_write_opts_set_always_gmt(IsoWriteOpts *opts, int gmt) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->always_gmt = gmt ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_output_charset(IsoWriteOpts *opts, const char *charset) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->output_charset = charset ? strdup(charset) : NULL; return ISO_SUCCESS; } int iso_write_opts_set_appendable(IsoWriteOpts *opts, int appendable) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->appendable = appendable ? 1 : 0; return ISO_SUCCESS; } int iso_write_opts_set_ms_block(IsoWriteOpts *opts, uint32_t ms_block) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->ms_block = ms_block; return ISO_SUCCESS; } int iso_write_opts_set_overwrite_buf(IsoWriteOpts *opts, uint8_t *overwrite) { if (opts == NULL) { return ISO_NULL_POINTER; } opts->overwrite = overwrite; return ISO_SUCCESS; } int iso_write_opts_set_fifo_size(IsoWriteOpts *opts, size_t fifo_size) { if (opts == NULL) { return ISO_NULL_POINTER; } if (fifo_size < 32) { return ISO_WRONG_ARG_VALUE; } opts->fifo_size = fifo_size; return ISO_SUCCESS; } int iso_write_opts_get_data_start(IsoWriteOpts *opts, uint32_t *data_start, int flag) { if(opts->data_start_lba == 0) return ISO_ERROR; *data_start = opts->data_start_lba; return ISO_SUCCESS; }