**zlib-deflate-nostdlib** provides a zlib decompressor (RFC 1950) and deflate reader (RFC 1951) suitable for 8- and 16-bit microcontrollers. It works fine on MCUs as small as ATMega328P (used, for example, in the Arduino Nano) and MSP430FR5994. It is compatible with both C (tested with c99) and C++ (tested with c++14). Apart from type definitions for (u)int8\_t, (u)int16\_t, and (u)int32\_t, which are typically provided by stdint.h, it has no external dependencies. zlib-deflate-nostdlib is focused on a low memory footprint. It is not optimized for speed. Right now, the implementation is naive, but usable. See below for the current status and TODOs. Be aware that this library has not been extensively tested yet. ## Usage Embed `deflate.c` and `deflate.h` into your project. You can rename `deflate.c` to `deflate.cc` and/or compile it with g++ instead of gcc, if you like. Use `deflate_zlib(input, input_len, output, output_len)` to decompress zlib data, and `deflate(input, input_len, output, output_len)` to decompress deflate data without zlib header. input and output must be `unsigned char *`, input\_len and output\_len are expected to be unsigned 16-bit integers. Both functions return the number of bytes written to `output`, or a negative value on error. Example for zlib decompression (RFC 1950): ``` #include "deflate.h" unsigned char deflate_input[] = { /* some compressed data, e.g.: */ 120, 156, 243, 72, 205, 201, 201, 215, 81, 8, 207, 47, 202, 73, 177, 87, 240, 64, 226, 41, 2, 0, 128, 125, 9, 17 }; unsigned char deflate_output[128]; // within some function { int16_t out_bytes = deflate_zlib(deflate_input, sizeof(deflate_input), deflate_output, sizeof(deflate_output)); if (out_bytes < 0) { // error } else { // success. deflate_output contains "Hello, World? Hello, World!" // out_bytes contains the number of bytes written to deflate_output } } ``` Decompressing deflate (RFC 1951) data works as follows: ``` #include "deflate.h" unsigned char deflate_input[] = { /* some compressed data, e.g.: */ 243, 72, 205, 201, 201, 215, 81, 8, 207, 47, 202, 73, 177, 87, 240, 64, 226, 41, 2, 0 }; unsigned char deflate_output[128]; // within some function { int16_t out_bytes = deflate(deflate_input, sizeof(deflate_input), deflate_output, sizeof(deflate_output)); if (out_bytes < 0) { // error } else { // success. deflate_output contains "Hello, World? Hello, World!" // out_bytes contains the number of bytes written to deflate_output } } ``` ## Compilation flags Compile with `-DDEFLATE_CHECKSUM` to enable verification of the zlib ADLER32 checksum in `deflate_zlib`. ## Compliance The code *almost* complies with RFC 1950 (decompression only), with the following exceptions. * Unless compiled with `-DDEFLATE_CHECKSUM`, zlib-deflate-nostdlib does not verify the ADLER32 checksum embedded into zlib-compressed data. The code *almost* complies with RFC 1951, with the following exceptions. * zlib-deflate-nostdlib assumes that Huffman codes are limited to a length of 12 bits and that there are no more than 255 codes per length. This appears to be a reasonable assumption for embedded devices, whose decompression abilities are limited by the amount of RAM anyways. I have not yet determined whether longer Huffman codes can appear in practice or not, and if so, under which conditions. * zlib-deflate-nostdlib does not yet support compressed items consisting of more than one deflate block. I intend to fix this. ## Requirements RAM usage excludes the space needed for input and output buffer. Numbers rounded up to the next multiple of 16B. | Architecture | ROM | RAM | :--- | ---: | ---: | | 8-bit ATMega328P | 1584 B | 624 B | | 16-bit MSP430FR5994 | 2304 B | 432 B | | 20-bit MSP430FR5994 | 2608 B | 432 B | | 32-bit STM32F446RE (ARM Cortex M3) | 1744 B | 432 B |