/* mz_strm_split.c -- Stream for split files Version 2.9.2, February 12, 2020 part of the MiniZip project Copyright (C) 2010-2020 Nathan Moinvaziri https://github.com/nmoinvaz/minizip This program is distributed under the terms of the same license as zlib. See the accompanying LICENSE file for the full text of the license. */ #include "mz.h" #include "mz_os.h" #include "mz_strm.h" #include "mz_strm_split.h" #include /* snprintf */ #if defined(_MSC_VER) && (_MSC_VER < 1900) # define snprintf _snprintf #endif /***************************************************************************/ #define MZ_ZIP_MAGIC_DISKHEADER (0x08074b50) /***************************************************************************/ static mz_stream_vtbl mz_stream_split_vtbl = { mz_stream_split_open, mz_stream_split_is_open, mz_stream_split_read, mz_stream_split_write, mz_stream_split_tell, mz_stream_split_seek, mz_stream_split_close, mz_stream_split_error, mz_stream_split_create, mz_stream_split_delete, mz_stream_split_get_prop_int64, mz_stream_split_set_prop_int64 }; /***************************************************************************/ typedef struct mz_stream_split_s { mz_stream stream; int32_t is_open; int64_t disk_size; int64_t total_in; int64_t total_in_disk; int64_t total_out; int64_t total_out_disk; int32_t mode; char *path_cd; uint32_t path_cd_size; char *path_disk; uint32_t path_disk_size; int32_t number_disk; int32_t current_disk; int64_t current_disk_size; int32_t reached_end; } mz_stream_split; /***************************************************************************/ #if 0 # define mz_stream_split_print printf #else # define mz_stream_split_print(fmt,...) #endif /***************************************************************************/ static int32_t mz_stream_split_open_disk(void *stream, int32_t number_disk) { mz_stream_split *split = (mz_stream_split *)stream; uint32_t magic = 0; int64_t position = 0; int32_t i = 0; int32_t err = MZ_OK; int16_t disk_part = 0; /* Check if we are reading or writing a disk part or the cd disk */ if (number_disk >= 0) { if ((split->mode & MZ_OPEN_MODE_WRITE) == 0) disk_part = MZ_OPEN_MODE_READ; else if (split->disk_size > 0) disk_part = MZ_OPEN_MODE_WRITE; } /* Construct disk path */ if (disk_part > 0) { for (i = (int32_t)strlen(split->path_disk) - 1; i >= 0; i -= 1) { if (split->path_disk[i] != '.') continue; snprintf(&split->path_disk[i], split->path_disk_size - (uint32_t)i, ".z%02" PRId32, number_disk + 1); break; } } else { strncpy(split->path_disk, split->path_cd, split->path_disk_size - 1); split->path_disk[split->path_disk_size - 1] = 0; } mz_stream_split_print("Split - Goto disk - %s (disk %" PRId32 ")\n", split->path_disk, number_disk); /* If disk part doesn't exist during reading then return MZ_EXIST_ERROR */ if (disk_part == MZ_OPEN_MODE_READ) err = mz_os_file_exists(split->path_disk); if (err == MZ_OK) err = mz_stream_open(split->stream.base, split->path_disk, split->mode); if (err == MZ_OK) { split->total_in_disk = 0; split->total_out_disk = 0; split->current_disk = number_disk; if (split->mode & MZ_OPEN_MODE_WRITE) { if ((split->current_disk == 0) && (split->disk_size > 0)) { err = mz_stream_write_uint32(split->stream.base, MZ_ZIP_MAGIC_DISKHEADER); split->total_out_disk += 4; split->total_out += split->total_out_disk; } } else if (split->mode & MZ_OPEN_MODE_READ) { if (split->current_disk == 0) { err = mz_stream_read_uint32(split->stream.base, &magic); if (magic != MZ_ZIP_MAGIC_DISKHEADER) err = MZ_FORMAT_ERROR; } } } if (err == MZ_OK) { /* Get the size of the current disk we are on */ position = mz_stream_tell(split->stream.base); mz_stream_seek(split->stream.base, 0, MZ_SEEK_END); split->current_disk_size = mz_stream_tell(split->stream.base); mz_stream_seek(split->stream.base, position, MZ_SEEK_SET); split->is_open = 1; } return err; } static int32_t mz_stream_split_close_disk(void *stream) { mz_stream_split *split = (mz_stream_split *)stream; if (mz_stream_is_open(split->stream.base) != MZ_OK) return MZ_OK; mz_stream_split_print("Split - Close disk\n"); return mz_stream_close(split->stream.base); } static int32_t mz_stream_split_goto_disk(void *stream, int32_t number_disk) { mz_stream_split *split = (mz_stream_split *)stream; int32_t err = MZ_OK; int32_t err_is_open = MZ_OK; err_is_open = mz_stream_is_open(split->stream.base); if ((split->disk_size == 0) && (split->mode & MZ_OPEN_MODE_WRITE)) { if (err_is_open != MZ_OK) err = mz_stream_split_open_disk(stream, number_disk); } else if ((number_disk != split->current_disk) || (err_is_open != MZ_OK)) { err = mz_stream_split_close_disk(stream); if (err == MZ_OK) { err = mz_stream_split_open_disk(stream, number_disk); if (err == MZ_OK) split->number_disk = number_disk; } } return err; } int32_t mz_stream_split_open(void *stream, const char *path, int32_t mode) { mz_stream_split *split = (mz_stream_split *)stream; int32_t number_disk = 0; split->mode = mode; split->path_cd_size = (uint32_t)strlen(path) + 1; split->path_cd = (char *)MZ_ALLOC(split->path_cd_size); if (split->path_cd == NULL) return MZ_MEM_ERROR; strncpy(split->path_cd, path, split->path_cd_size - 1); split->path_cd[split->path_cd_size - 1] = 0; mz_stream_split_print("Split - Open - %s (disk %" PRId32 ")\n", split->path_cd, number_disk); split->path_disk_size = (uint32_t)strlen(path) + 10; split->path_disk = (char *)MZ_ALLOC(split->path_disk_size); if (split->path_disk == NULL) { MZ_FREE(split->path_cd); return MZ_MEM_ERROR; } strncpy(split->path_disk, path, split->path_disk_size - 1); split->path_disk[split->path_disk_size - 1] = 0; if ((mode & MZ_OPEN_MODE_WRITE) && ((mode & MZ_OPEN_MODE_APPEND) == 0)) { number_disk = 0; split->current_disk = -1; } else { number_disk = -1; split->current_disk = 0; } return mz_stream_split_goto_disk(stream, number_disk); } int32_t mz_stream_split_is_open(void *stream) { mz_stream_split *split = (mz_stream_split *)stream; if (split->is_open != 1) return MZ_OPEN_ERROR; return MZ_OK; } int32_t mz_stream_split_read(void *stream, void *buf, int32_t size) { mz_stream_split *split = (mz_stream_split *)stream; int32_t bytes_left = size; int32_t read = 0; int32_t err = MZ_OK; uint8_t *buf_ptr = (uint8_t *)buf; err = mz_stream_split_goto_disk(stream, split->number_disk); if (err != MZ_OK) return err; while (bytes_left > 0) { read = mz_stream_read(split->stream.base, buf_ptr, bytes_left); mz_stream_split_print("Split - Read disk - %" PRId32 "\n", read); if (read < 0) return read; if (read == 0) { if (split->current_disk < 0) /* No more disks to goto */ break; err = mz_stream_split_goto_disk(stream, split->current_disk + 1); if (err == MZ_EXIST_ERROR) { split->current_disk = -1; break; } if (err != MZ_OK) return err; } bytes_left -= read; buf_ptr += read; split->total_in += read; split->total_in_disk += read; } return size - bytes_left; } int32_t mz_stream_split_write(void *stream, const void *buf, int32_t size) { mz_stream_split *split = (mz_stream_split *)stream; int64_t position = 0; int32_t written = 0; int32_t bytes_left = size; int32_t bytes_to_write = 0; int32_t bytes_avail = 0; int32_t number_disk = -1; int32_t err = MZ_OK; const uint8_t *buf_ptr = (const uint8_t *)buf; position = mz_stream_tell(split->stream.base); while (bytes_left > 0) { bytes_to_write = bytes_left; if (split->disk_size > 0) { if ((split->total_out_disk == split->disk_size && split->total_out > 0) || (split->number_disk == -1 && split->number_disk != split->current_disk)) { if (split->number_disk != -1) number_disk = split->current_disk + 1; err = mz_stream_split_goto_disk(stream, number_disk); if (err != MZ_OK) return err; } if (split->number_disk != -1) { bytes_avail = (int32_t)(split->disk_size - split->total_out_disk); if (bytes_to_write > bytes_avail) bytes_to_write = bytes_avail; } } written = mz_stream_write(split->stream.base, buf_ptr, bytes_to_write); if (written != bytes_to_write) return MZ_WRITE_ERROR; mz_stream_split_print("Split - Write disk - %" PRId32 "\n", written); bytes_left -= written; buf_ptr += written; split->total_out += written; split->total_out_disk += written; if (position == split->current_disk_size) { split->current_disk_size += written; position = split->current_disk_size; } } return size - bytes_left; } int64_t mz_stream_split_tell(void *stream) { mz_stream_split *split = (mz_stream_split *)stream; int32_t err = MZ_OK; err = mz_stream_split_goto_disk(stream, split->number_disk); if (err != MZ_OK) return err; return mz_stream_tell(split->stream.base); } int32_t mz_stream_split_seek(void *stream, int64_t offset, int32_t origin) { mz_stream_split *split = (mz_stream_split *)stream; int64_t disk_left = 0; int64_t position = 0; int32_t err = MZ_OK; err = mz_stream_split_goto_disk(stream, split->number_disk); if (err != MZ_OK) return err; mz_stream_split_print("Split - Seek disk - %" PRId64 " (origin %" PRId32 ")\n", offset, origin); if ((origin == MZ_SEEK_CUR) && (split->number_disk != -1)) { position = mz_stream_tell(split->stream.base); disk_left = split->current_disk_size - position; while (offset > disk_left) { err = mz_stream_split_goto_disk(stream, split->current_disk + 1); if (err != MZ_OK) return err; offset -= disk_left; disk_left = split->current_disk_size; } } return mz_stream_seek(split->stream.base, offset, origin); } int32_t mz_stream_split_close(void *stream) { mz_stream_split *split = (mz_stream_split *)stream; int32_t err = MZ_OK; err = mz_stream_split_close_disk(stream); split->is_open = 0; return err; } int32_t mz_stream_split_error(void *stream) { mz_stream_split *split = (mz_stream_split *)stream; return mz_stream_error(split->stream.base); } int32_t mz_stream_split_get_prop_int64(void *stream, int32_t prop, int64_t *value) { mz_stream_split *split = (mz_stream_split *)stream; switch (prop) { case MZ_STREAM_PROP_TOTAL_OUT: *value = split->total_out; break; case MZ_STREAM_PROP_DISK_NUMBER: *value = split->number_disk; break; case MZ_STREAM_PROP_DISK_SIZE: *value = split->disk_size; break; default: return MZ_EXIST_ERROR; } return MZ_OK; } int32_t mz_stream_split_set_prop_int64(void *stream, int32_t prop, int64_t value) { mz_stream_split *split = (mz_stream_split *)stream; switch (prop) { case MZ_STREAM_PROP_DISK_NUMBER: split->number_disk = (int32_t)value; break; case MZ_STREAM_PROP_DISK_SIZE: split->disk_size = value; break; default: return MZ_EXIST_ERROR; } return MZ_OK; } void *mz_stream_split_create(void **stream) { mz_stream_split *split = NULL; split = (mz_stream_split *)MZ_ALLOC(sizeof(mz_stream_split)); if (split != NULL) { memset(split, 0, sizeof(mz_stream_split)); split->stream.vtbl = &mz_stream_split_vtbl; } if (stream != NULL) *stream = split; return split; } void mz_stream_split_delete(void **stream) { mz_stream_split *split = NULL; if (stream == NULL) return; split = (mz_stream_split *)*stream; if (split != NULL) { if (split->path_cd) MZ_FREE(split->path_cd); if (split->path_disk) MZ_FREE(split->path_disk); MZ_FREE(split); } *stream = NULL; } void *mz_stream_split_get_interface(void) { return (void *)&mz_stream_split_vtbl; }