/* mz_strm.c -- Stream interface part of the minizip-ng project Copyright (C) 2010-2021 Nathan Moinvaziri https://github.com/zlib-ng/minizip-ng 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_strm.h" /***************************************************************************/ #define MZ_STREAM_FIND_SIZE (1024) /***************************************************************************/ int32_t mz_stream_open(void *stream, const char *path, int32_t mode) { mz_stream *strm = (mz_stream *)stream; if (strm == NULL || strm->vtbl == NULL || strm->vtbl->open == NULL) return MZ_STREAM_ERROR; return strm->vtbl->open(strm, path, mode); } int32_t mz_stream_is_open(void *stream) { mz_stream *strm = (mz_stream *)stream; if (strm == NULL || strm->vtbl == NULL || strm->vtbl->is_open == NULL) return MZ_STREAM_ERROR; return strm->vtbl->is_open(strm); } int32_t mz_stream_read(void *stream, void *buf, int32_t size) { mz_stream *strm = (mz_stream *)stream; if (strm == NULL || strm->vtbl == NULL || strm->vtbl->read == NULL) return MZ_PARAM_ERROR; if (mz_stream_is_open(stream) != MZ_OK) return MZ_STREAM_ERROR; return strm->vtbl->read(strm, buf, size); } static int32_t mz_stream_read_value(void *stream, uint64_t *value, int32_t len) { uint8_t buf[8]; int32_t n = 0; int32_t i = 0; *value = 0; if (mz_stream_read(stream, buf, len) == len) { for (n = 0; n < len; n += 1, i += 8) *value += ((uint64_t)buf[n]) << i; } else if (mz_stream_error(stream)) return MZ_STREAM_ERROR; else return MZ_END_OF_STREAM; return MZ_OK; } int32_t mz_stream_read_uint8(void *stream, uint8_t *value) { int32_t err = MZ_OK; uint64_t value64 = 0; *value = 0; err = mz_stream_read_value(stream, &value64, sizeof(uint8_t)); if (err == MZ_OK) *value = (uint8_t)value64; return err; } int32_t mz_stream_read_uint16(void *stream, uint16_t *value) { int32_t err = MZ_OK; uint64_t value64 = 0; *value = 0; err = mz_stream_read_value(stream, &value64, sizeof(uint16_t)); if (err == MZ_OK) *value = (uint16_t)value64; return err; } int32_t mz_stream_read_uint32(void *stream, uint32_t *value) { int32_t err = MZ_OK; uint64_t value64 = 0; *value = 0; err = mz_stream_read_value(stream, &value64, sizeof(uint32_t)); if (err == MZ_OK) *value = (uint32_t)value64; return err; } int32_t mz_stream_read_int64(void *stream, int64_t *value) { return mz_stream_read_value(stream, (uint64_t *)value, sizeof(uint64_t)); } int32_t mz_stream_read_uint64(void *stream, uint64_t *value) { return mz_stream_read_value(stream, value, sizeof(uint64_t)); } int32_t mz_stream_write(void *stream, const void *buf, int32_t size) { mz_stream *strm = (mz_stream *)stream; if (size == 0) return size; if (strm == NULL || strm->vtbl == NULL || strm->vtbl->write == NULL) return MZ_PARAM_ERROR; if (mz_stream_is_open(stream) != MZ_OK) return MZ_STREAM_ERROR; return strm->vtbl->write(strm, buf, size); } static int32_t mz_stream_write_value(void *stream, uint64_t value, int32_t len) { uint8_t buf[8]; int32_t n = 0; for (n = 0; n < len; n += 1) { buf[n] = (uint8_t)(value & 0xff); value >>= 8; } if (value != 0) { /* Data overflow - hack for ZIP64 (X Roche) */ for (n = 0; n < len; n += 1) buf[n] = 0xff; } if (mz_stream_write(stream, buf, len) != len) return MZ_STREAM_ERROR; return MZ_OK; } int32_t mz_stream_write_uint8(void *stream, uint8_t value) { return mz_stream_write_value(stream, value, sizeof(uint8_t)); } int32_t mz_stream_write_uint16(void *stream, uint16_t value) { return mz_stream_write_value(stream, value, sizeof(uint16_t)); } int32_t mz_stream_write_uint32(void *stream, uint32_t value) { return mz_stream_write_value(stream, value, sizeof(uint32_t)); } int32_t mz_stream_write_int64(void *stream, int64_t value) { return mz_stream_write_value(stream, (uint64_t)value, sizeof(uint64_t)); } int32_t mz_stream_write_uint64(void *stream, uint64_t value) { return mz_stream_write_value(stream, value, sizeof(uint64_t)); } int32_t mz_stream_copy(void *target, void *source, int32_t len) { return mz_stream_copy_stream(target, NULL, source, NULL, len); } int32_t mz_stream_copy_to_end(void *target, void *source) { return mz_stream_copy_stream_to_end(target, NULL, source, NULL); } int32_t mz_stream_copy_stream(void *target, mz_stream_write_cb write_cb, void *source, mz_stream_read_cb read_cb, int32_t len) { uint8_t buf[16384]; int32_t bytes_to_copy = 0; int32_t read = 0; int32_t written = 0; if (write_cb == NULL) write_cb = mz_stream_write; if (read_cb == NULL) read_cb = mz_stream_read; while (len > 0) { bytes_to_copy = len; if (bytes_to_copy > (int32_t)sizeof(buf)) bytes_to_copy = sizeof(buf); read = read_cb(source, buf, bytes_to_copy); if (read <= 0) return MZ_STREAM_ERROR; written = write_cb(target, buf, read); if (written != read) return MZ_STREAM_ERROR; len -= read; } return MZ_OK; } int32_t mz_stream_copy_stream_to_end(void *target, mz_stream_write_cb write_cb, void *source, mz_stream_read_cb read_cb) { uint8_t buf[16384]; int32_t read = 0; int32_t written = 0; if (write_cb == NULL) write_cb = mz_stream_write; if (read_cb == NULL) read_cb = mz_stream_read; read = read_cb(source, buf, sizeof(buf)); while (read > 0) { written = write_cb(target, buf, read); if (written != read) return MZ_STREAM_ERROR; read = read_cb(source, buf, sizeof(buf)); } if (read < 0) return MZ_STREAM_ERROR; return MZ_OK; } int64_t mz_stream_tell(void *stream) { mz_stream *strm = (mz_stream *)stream; if (strm == NULL || strm->vtbl == NULL || strm->vtbl->tell == NULL) return MZ_PARAM_ERROR; if (mz_stream_is_open(stream) != MZ_OK) return MZ_STREAM_ERROR; return strm->vtbl->tell(strm); } int32_t mz_stream_seek(void *stream, int64_t offset, int32_t origin) { mz_stream *strm = (mz_stream *)stream; if (strm == NULL || strm->vtbl == NULL || strm->vtbl->seek == NULL) return MZ_PARAM_ERROR; if (mz_stream_is_open(stream) != MZ_OK) return MZ_STREAM_ERROR; if (origin == MZ_SEEK_SET && offset < 0) return MZ_SEEK_ERROR; return strm->vtbl->seek(strm, offset, origin); } int32_t mz_stream_find(void *stream, const void *find, int32_t find_size, int64_t max_seek, int64_t *position) { uint8_t buf[MZ_STREAM_FIND_SIZE]; int32_t buf_pos = 0; int32_t read_size = sizeof(buf); int32_t read = 0; int64_t read_pos = 0; int64_t start_pos = 0; int64_t disk_pos = 0; int32_t i = 0; uint8_t first = 1; int32_t err = MZ_OK; if (stream == NULL || find == NULL || position == NULL) return MZ_PARAM_ERROR; if (find_size < 0 || find_size >= (int32_t)sizeof(buf)) return MZ_PARAM_ERROR; *position = -1; start_pos = mz_stream_tell(stream); while (read_pos < max_seek) { if (read_size > (int32_t)(max_seek - read_pos - buf_pos) && (max_seek - read_pos - buf_pos) < (int64_t)sizeof(buf)) read_size = (int32_t)(max_seek - read_pos - buf_pos); read = mz_stream_read(stream, buf + buf_pos, read_size); if ((read <= 0) || (read + buf_pos < find_size)) break; for (i = 0; i <= read + buf_pos - find_size; i += 1) { if (memcmp(&buf[i], find, find_size) != 0) continue; disk_pos = mz_stream_tell(stream); /* Seek to position on disk where the data was found */ err = mz_stream_seek(stream, disk_pos - ((int64_t)read + buf_pos - i), MZ_SEEK_SET); if (err != MZ_OK) return MZ_EXIST_ERROR; *position = start_pos + read_pos + i; return MZ_OK; } if (first) { read -= find_size; read_size -= find_size; buf_pos = find_size; first = 0; } memmove(buf, buf + read, find_size); read_pos += read; } return MZ_EXIST_ERROR; } int32_t mz_stream_find_reverse(void *stream, const void *find, int32_t find_size, int64_t max_seek, int64_t *position) { uint8_t buf[MZ_STREAM_FIND_SIZE]; int32_t buf_pos = 0; int32_t read_size = MZ_STREAM_FIND_SIZE; int64_t read_pos = 0; int32_t read = 0; int64_t start_pos = 0; int64_t disk_pos = 0; uint8_t first = 1; int32_t i = 0; int32_t err = MZ_OK; if (stream == NULL || find == NULL || position == NULL) return MZ_PARAM_ERROR; if (find_size < 0 || find_size >= (int32_t)sizeof(buf)) return MZ_PARAM_ERROR; *position = -1; start_pos = mz_stream_tell(stream); while (read_pos < max_seek) { if (read_size > (int32_t)(max_seek - read_pos) && (max_seek - read_pos) < (int64_t)sizeof(buf)) read_size = (int32_t)(max_seek - read_pos); if (mz_stream_seek(stream, start_pos - (read_pos + read_size), MZ_SEEK_SET) != MZ_OK) break; read = mz_stream_read(stream, buf, read_size); if ((read <= 0) || (read + buf_pos < find_size)) break; if (read + buf_pos < MZ_STREAM_FIND_SIZE) memmove(buf + MZ_STREAM_FIND_SIZE - (read + buf_pos), buf, read); for (i = find_size; i <= (read + buf_pos); i += 1) { if (memcmp(&buf[MZ_STREAM_FIND_SIZE - i], find, find_size) != 0) continue; disk_pos = mz_stream_tell(stream); /* Seek to position on disk where the data was found */ err = mz_stream_seek(stream, disk_pos + buf_pos - i, MZ_SEEK_SET); if (err != MZ_OK) return MZ_EXIST_ERROR; *position = start_pos - (read_pos - buf_pos + i); return MZ_OK; } if (first) { read -= find_size; read_size -= find_size; buf_pos = find_size; first = 0; } if (read == 0) break; memmove(buf + read_size, buf, find_size); read_pos += read; } return MZ_EXIST_ERROR; } int32_t mz_stream_close(void *stream) { mz_stream *strm = (mz_stream *)stream; if (strm == NULL || strm->vtbl == NULL || strm->vtbl->close == NULL) return MZ_PARAM_ERROR; if (mz_stream_is_open(stream) != MZ_OK) return MZ_STREAM_ERROR; return strm->vtbl->close(strm); } int32_t mz_stream_error(void *stream) { mz_stream *strm = (mz_stream *)stream; if (strm == NULL || strm->vtbl == NULL || strm->vtbl->error == NULL) return MZ_PARAM_ERROR; return strm->vtbl->error(strm); } int32_t mz_stream_set_base(void *stream, void *base) { mz_stream *strm = (mz_stream *)stream; strm->base = (mz_stream *)base; return MZ_OK; } void* mz_stream_get_interface(void *stream) { mz_stream *strm = (mz_stream *)stream; if (strm == NULL || strm->vtbl == NULL) return NULL; return (void *)strm->vtbl; } int32_t mz_stream_get_prop_int64(void *stream, int32_t prop, int64_t *value) { mz_stream *strm = (mz_stream *)stream; if (strm == NULL || strm->vtbl == NULL || strm->vtbl->get_prop_int64 == NULL) return MZ_PARAM_ERROR; return strm->vtbl->get_prop_int64(stream, prop, value); } int32_t mz_stream_set_prop_int64(void *stream, int32_t prop, int64_t value) { mz_stream *strm = (mz_stream *)stream; if (strm == NULL || strm->vtbl == NULL || strm->vtbl->set_prop_int64 == NULL) return MZ_PARAM_ERROR; return strm->vtbl->set_prop_int64(stream, prop, value); } void *mz_stream_create(void **stream, mz_stream_vtbl *vtbl) { if (stream == NULL) return NULL; if (vtbl == NULL || vtbl->create == NULL) return NULL; return vtbl->create(stream); } void mz_stream_delete(void **stream) { mz_stream *strm = NULL; if (stream == NULL) return; strm = (mz_stream *)*stream; if (strm != NULL && strm->vtbl != NULL && strm->vtbl->destroy != NULL) strm->vtbl->destroy(stream); *stream = NULL; } /***************************************************************************/ typedef struct mz_stream_raw_s { mz_stream stream; int64_t total_in; int64_t total_out; int64_t max_total_in; } mz_stream_raw; /***************************************************************************/ int32_t mz_stream_raw_open(void *stream, const char *path, int32_t mode) { MZ_UNUSED(stream); MZ_UNUSED(path); MZ_UNUSED(mode); return MZ_OK; } int32_t mz_stream_raw_is_open(void *stream) { mz_stream_raw *raw = (mz_stream_raw *)stream; return mz_stream_is_open(raw->stream.base); } int32_t mz_stream_raw_read(void *stream, void *buf, int32_t size) { mz_stream_raw *raw = (mz_stream_raw *)stream; int32_t bytes_to_read = size; int32_t read = 0; if (raw->max_total_in > 0) { if ((int64_t)bytes_to_read > (raw->max_total_in - raw->total_in)) bytes_to_read = (int32_t)(raw->max_total_in - raw->total_in); } read = mz_stream_read(raw->stream.base, buf, bytes_to_read); if (read > 0) { raw->total_in += read; raw->total_out += read; } return read; } int32_t mz_stream_raw_write(void *stream, const void *buf, int32_t size) { mz_stream_raw *raw = (mz_stream_raw *)stream; int32_t written = 0; written = mz_stream_write(raw->stream.base, buf, size); if (written > 0) { raw->total_out += written; raw->total_in += written; } return written; } int64_t mz_stream_raw_tell(void *stream) { mz_stream_raw *raw = (mz_stream_raw *)stream; return mz_stream_tell(raw->stream.base); } int32_t mz_stream_raw_seek(void *stream, int64_t offset, int32_t origin) { mz_stream_raw *raw = (mz_stream_raw *)stream; return mz_stream_seek(raw->stream.base, offset, origin); } int32_t mz_stream_raw_close(void *stream) { MZ_UNUSED(stream); return MZ_OK; } int32_t mz_stream_raw_error(void *stream) { mz_stream_raw *raw = (mz_stream_raw *)stream; return mz_stream_error(raw->stream.base); } int32_t mz_stream_raw_get_prop_int64(void *stream, int32_t prop, int64_t *value) { mz_stream_raw *raw = (mz_stream_raw *)stream; switch (prop) { case MZ_STREAM_PROP_TOTAL_IN: *value = raw->total_in; return MZ_OK; case MZ_STREAM_PROP_TOTAL_OUT: *value = raw->total_out; return MZ_OK; } return MZ_EXIST_ERROR; } int32_t mz_stream_raw_set_prop_int64(void *stream, int32_t prop, int64_t value) { mz_stream_raw *raw = (mz_stream_raw *)stream; switch (prop) { case MZ_STREAM_PROP_TOTAL_IN_MAX: raw->max_total_in = value; return MZ_OK; } return MZ_EXIST_ERROR; } /***************************************************************************/ static mz_stream_vtbl mz_stream_raw_vtbl = { mz_stream_raw_open, mz_stream_raw_is_open, mz_stream_raw_read, mz_stream_raw_write, mz_stream_raw_tell, mz_stream_raw_seek, mz_stream_raw_close, mz_stream_raw_error, mz_stream_raw_create, mz_stream_raw_delete, mz_stream_raw_get_prop_int64, mz_stream_raw_set_prop_int64 }; /***************************************************************************/ void *mz_stream_raw_create(void **stream) { mz_stream_raw *raw = NULL; raw = (mz_stream_raw *)MZ_ALLOC(sizeof(mz_stream_raw)); if (raw != NULL) { memset(raw, 0, sizeof(mz_stream_raw)); raw->stream.vtbl = &mz_stream_raw_vtbl; } if (stream != NULL) *stream = raw; return raw; } void mz_stream_raw_delete(void **stream) { mz_stream_raw *raw = NULL; if (stream == NULL) return; raw = (mz_stream_raw *)*stream; if (raw != NULL) MZ_FREE(raw); *stream = NULL; }