- uzlib https://github.com/pfalcon/uzlib
- TinyUntar https://github.com/dsoprea/TinyUntar
This library enables the channeling of gz β‘οΈ tar β‘οΈ filesystem data without using an intermediate file (bug: see #4).
In order to reach this goal, TinyUntar was heavily modified to allow data streaming, uzlib is also customized.
When the output is the filesystem (e.g. NOT when streaming to TAR), gzip can work without the dictionary. Disabling the dictionary can cause huge slowdowns but saves ~36KB of ram.
TinyUntar requires 512bytes only so its memory footprint is negligible.
ESP32-TarGz can only have one output filesystem (see Support Matrix), and it must be set at compilation time (see Usage). This limitation does not apply to the input filesystem/stream.
- This library is only for unpacking / decompressing, no compression support is provided whatsoever
- Although the examples use SPIFFS as default, it should work with any fs::FS filesystem (SD, SD_MMC, FFat, LittleFS) and streams (HTTP, HTTPS, UDP, CAN, Ethernet)
- This is experimental, expect bugs!
- Contributions and feedback are more than welcome :-)
fs::FS | SPIFFS | LittleFS | SD | SD_MMC | FFAT |
---|---|---|---|---|---|
ESP32 | 1.0 | 1.0.5 | 1.0.5 | 1.0 | 1.0 |
ESP8266 | builtin | 0.1.0 | 0.1.0 | n/a | n/a |
#define
before including <ESP32-targz.h>
is mandatory otherwise it will be ignored and the library will default to SPIFFS.
// Set **destination** filesystem by uncommenting one of these:
//#define DEST_FS_USES_SPIFFS
//#define DEST_FS_USES_FFAT
//#define DEST_FS_USES_SD
//#define DEST_FS_USES_SD_MMC
#define DEST_FS_USES_LITTLEFS
#include <ESP32-targz.h>
// filesystem object will be available as "tarGzFS"
// mount spiffs (or any other filesystem)
tarGzFS.begin();
GzUnpacker *GZUnpacker = new GzUnpacker();
GZUnpacker->haltOnError( true ); // stop on fail (manual restart/reset required)
GZUnpacker->setupFSCallbacks( targzTotalBytesFn, targzFreeBytesFn ); // prevent the partition from exploding, recommended
GZUnpacker->setGzProgressCallback( BaseUnpacker::defaultProgressCallback ); // targzNullProgressCallback or defaultProgressCallback
GZUnpacker->setLoggerCallback( BaseUnpacker::targzPrintLoggerCallback ); // gz log verbosity
// expand one file
if( !GZUnpacker->gzExpander(tarGzFS, "/gz_example.gz", tarGzFS, "/gz_example.jpg") ) {
Serial.printf("gzExpander failed with return code #%d", GZUnpacker->tarGzGetError() );
}
// expand another file
if( ! gzExpander(tarGzFS, "/blah.gz", tarGzFS, "/blah.jpg") ) {
Serial.printf("operation failed with return code #%d", GZUnpacker->tarGzGetError() );
}
// mount spiffs (or any other filesystem)
tarGzFS.begin();
TarUnpacker *TARUnpacker = new TarUnpacker();
TARUnpacker->haltOnError( true ); // stop on fail (manual restart/reset required)
TARUnpacker->setTarVerify( true ); // true = enables health checks but slows down the overall process
TARUnpacker->setupFSCallbacks( targzTotalBytesFn, targzFreeBytesFn ); // prevent the partition from exploding, recommended
TARUnpacker->setTarProgressCallback( BaseUnpacker::defaultProgressCallback ); // prints the untarring progress for each individual file
TARUnpacker->setTarStatusProgressCallback( BaseUnpacker::defaultTarStatusProgressCallback ); // print the filenames as they're expanded
TARUnpacker->setTarMessageCallback( BaseUnpacker::targzPrintLoggerCallback ); // tar log verbosity
if( !TARUnpacker->tarExpander(tarGzFS, "/tar_example.tar", tarGzFS, "/") ) {
Serial.printf("tarExpander failed with return code #%d\n", TARUnpacker->tarGzGetError() );
}
// mount spiffs (or any other filesystem)
tarGzFS.begin();
TarGzUnpacker *TARGZUnpacker = new TarGzUnpacker();
TARGZUnpacker->haltOnError( true ); // stop on fail (manual restart/reset required)
TARGZUnpacker->setTarVerify( true ); // true = enables health checks but slows down the overall process
TARGZUnpacker->setupFSCallbacks( targzTotalBytesFn, targzFreeBytesFn ); // prevent the partition from exploding, recommended
TARGZUnpacker->setGzProgressCallback( BaseUnpacker::defaultProgressCallback ); // targzNullProgressCallback or defaultProgressCallback
TARGZUnpacker->setLoggerCallback( BaseUnpacker::targzPrintLoggerCallback ); // gz log verbosity
TARGZUnpacker->setTarProgressCallback( BaseUnpacker::defaultProgressCallback ); // prints the untarring progress for each individual file
TARGZUnpacker->setTarStatusProgressCallback( BaseUnpacker::defaultTarStatusProgressCallback ); // print the filenames as they're expanded
TARGZUnpacker->setTarMessageCallback( BaseUnpacker::targzPrintLoggerCallback ); // tar log verbosity
// using an intermediate file (default is /tmp/tmp.tar)
if( !TARGZUnpacker->tarGzExpander(tarGzFS, "/targz_example.tar.gz", tarGzFS, "/tmp") ) {
Serial.printf("tarGzExpander+intermediate file failed with return code #%d\n", TARGZUnpacker->tarGzGetError() );
}
// or without intermediate file
if( !TARGZUnpacker->tarGzExpander(tarGzFS, "/targz_example.tar.gz", tarGzFS, "/tmp", nullptr ) ) {
Serial.printf("tarGzExpander+intermediate file failed with return code #%d\n", TARGZUnpacker->tarGzGetError() );
}
// mount spiffs (or any other filesystem)
tarGzFS.begin();
GzUnpacker *GZUnpacker = new GzUnpacker();
GZUnpacker->haltOnError( true ); // stop on fail (manual restart/reset required)
GZUnpacker->setupFSCallbacks( targzTotalBytesFn, targzFreeBytesFn ); // prevent the partition from exploding, recommended
GZUnpacker->setGzProgressCallback( BaseUnpacker::defaultProgressCallback ); // targzNullProgressCallback or defaultProgressCallback
GZUnpacker->setLoggerCallback( BaseUnpacker::targzPrintLoggerCallback ); // gz log verbosity
if( ! GZUnpacker->gzUpdater(tarGzFS, firmwareFile, /*don't restart after update*/false ) ) {
Serial.printf("gzUpdater failed with return code #%d\n", GZUnpacker->tarGzGetError() );
}
// mount spiffs (or any other filesystem)
tarGzFS.begin();
fs::File file = tarGzFS.open( "/example_firmware.gz", "r" );
if (!file) {
Serial.println("Can't open file");
return;
}
GzUnpacker *GZUnpacker = new GzUnpacker();
GZUnpacker->haltOnError( true ); // stop on fail (manual restart/reset required)
GZUnpacker->setupFSCallbacks( targzTotalBytesFn, targzFreeBytesFn ); // prevent the partition from exploding, recommended
GZUnpacker->setGzProgressCallback( BaseUnpacker::defaultProgressCallback ); // targzNullProgressCallback or defaultProgressCallback
GZUnpacker->setLoggerCallback( BaseUnpacker::targzPrintLoggerCallback ); // gz log verbosity
if( !GZUnpacker->gzStreamUpdater( (Stream *)&file, UPDATE_SIZE_UNKNOWN ) ) {
Serial.printf("gzStreamUpdater failed with return code #%d\n", GZUnpacker->tarGzGetError() );
}
// mount spiffs (or any other filesystem)
tarGzFS.begin();
fs::File file = tarGzFS.open( "/example_archive.tgz", "r" );
if (!file) {
Serial.println("Can't open file");
return;
}
TarGzUnpacker *TARGZUnpacker = new TarGzUnpacker();
TARGZUnpacker->haltOnError( true ); // stop on fail (manual restart/reset required)
TARGZUnpacker->setTarVerify( true ); // true = enables health checks but slows down the overall process
TARGZUnpacker->setupFSCallbacks( targzTotalBytesFn, targzFreeBytesFn ); // prevent the partition from exploding, recommended
TARGZUnpacker->setGzProgressCallback( BaseUnpacker::defaultProgressCallback ); // targzNullProgressCallback or defaultProgressCallback
TARGZUnpacker->setLoggerCallback( BaseUnpacker::targzPrintLoggerCallback ); // gz log verbosity
TARGZUnpacker->setTarProgressCallback( BaseUnpacker::defaultProgressCallback ); // prints the untarring progress for each individual file
TARGZUnpacker->setTarStatusProgressCallback( BaseUnpacker::defaultTarStatusProgressCallback ); // print the filenames as they're expanded
TARGZUnpacker->setTarMessageCallback( BaseUnpacker::targzPrintLoggerCallback ); // tar log verbosity
if( !TARGZUnpacker->tarGzStreamExpander( (Stream *)&file, tarGzFS ) ) {
Serial.printf("tarGzStreamExpander failed with return code #%d\n", TARGZUnpacker->tarGzGetError() );
}
TarGzUnpacker *TARGZUnpacker = new TarGzUnpacker();
TARGZUnpacker->haltOnError( true ); // stop on fail (manual restart/reset required)
TARGZUnpacker->setTarVerify( false ); // nothing to verify as we're writing a partition
TARGZUnpacker->setGzProgressCallback( BaseUnpacker::targzNullProgressCallback ); // don't care about gz progress
TARGZUnpacker->setTarProgressCallback( BaseUnpacker::defaultProgressCallback ); // prints the untarring progress for each individual partition
TARGZUnpacker->setTarStatusProgressCallback( BaseUnpacker::defaultTarStatusProgressCallback ); // print the filenames as they're expanded
TARGZUnpacker->setTarMessageCallback( myTarMessageCallback/*BaseUnpacker::targzPrintLoggerCallback*/ ); // tar log verbosity
// mount SD
SD.begin();
// this .tar.gz file has both the "app.ino.bin" and "app.spiffs.bin" partitions
fs::File file = SD.open( "/bundle_firmware.tar.gz", "r" );
if (!file) {
Serial.println("Can't open file");
return;
}
// this could also be a HTTP/HTTPS/UDP/Ethernet Stream
Stream *streamptr = &file;
if( !TARGZUnpacker->tarGzStreamUpdater( streamptr ) ) {
Serial.printf("tarGzStreamUpdater failed with return code #%d\n", TARGZUnpacker->tarGzGetError() );
} else {
Serial.println( "Flashing successful, now restarting" );
ESP.restart();
}
// basic progress callback (valid for tar or gzip)
void myBasicProgressCallback( uint8_t progress )
{
Serial.printf("Progress: %d\n", progress );
}
// complex progress callback (valid for tar or gzip)
void myProgressCallback( uint8_t progress )
{
static int8_t myLastProgress = -1;
if( myLastProgress != progress ) {
if( myLastProgress == -1 ) {
Serial.print("Progress: ");
}
myLastProgress = progress;
switch( progress ) {
case 0: Serial.print("0% β"); break;
case 25: Serial.print(" 25% ");break;
case 50: Serial.print(" 50% ");break;
case 75: Serial.print(" 75% ");break;
case 100: Serial.print("β 100%\n"); myLastProgress = -1; break;
default: if( progress < 100) Serial.print( "β" ); break;
}
}
}
// General Error/Warning/Info logger
void myLogger(const char* format, ...)
{
va_list args;
va_start(args, format);
vprintf(format, args);
va_end(args);
}
// status callback for TAR (fired at file creation)
void myTarStatusProgressCallback( const char* name, size_t size, size_t total_unpacked )
{
Serial.printf("[TAR] %-64s %8d bytes - %8d Total bytes\n", name, size, total_unpacked );
}
*Unpacker->tarGzGetError()
returns a value when a problem occured:
-
General library error codes
0
: Yay no error!-1
: Filesystem error-6
: Same a Filesystem error-7
: Update not finished? Something went wrong-38
: Logic error during deflating-39
: Logic error during gzip read-40
: Logic error during file creation-100
: No space left on device-101
: No space left on device-102
: No space left on device-103
: Not enough heap-104
: Gzip dictionnary needs to be enabled-105
: Gz Error when parsing header-106
: Gz Error when allocating memory-107
: General error, file integrity check fail
-
UZLIB: forwarding error values from uzlib.h as is (no offset)
-2
: Not a valid gzip file-3
: Gz Error TINF_DATA_ERROR-4
: Gz Error TINF_CHKSUM_ERROR-5
: Gz Error TINF_DICT_ERROR-41
: Gz error, can't guess filename
-
UPDATE: applying -20 offset to forwarded error values from Update.h
-8
: Updater Error UPDATE_ERROR_ABORT-9
: Updater Error UPDATE_ERROR_BAD_ARGUMENT-10
: Updater Error UPDATE_ERROR_NO_PARTITION-11
: Updater Error UPDATE_ERROR_ACTIVATE-12
: Updater Error UPDATE_ERROR_MAGIC_BYTE-13
: Updater Error UPDATE_ERROR_MD5-14
: Updater Error UPDATE_ERROR_STREAM-15
: Updater Error UPDATE_ERROR_SIZE-16
: Updater Error UPDATE_ERROR_SPACE-17
: Updater Error UPDATE_ERROR_READ-18
: Updater Error UPDATE_ERROR_ERASE-19
: Updater Error UPDATE_ERROR_WRITE
-
TAR: applying -30 offset to forwarded error values from untar.h
32
: Tar Error TAR_ERR_DATACB_FAIL33
: Tar Error TAR_ERR_HEADERCB_FAIL34
: Tar Error TAR_ERR_FOOTERCB_FAIL35
: Tar Error TAR_ERR_READBLOCK_FAIL36
: Tar Error TAR_ERR_HEADERTRANS_FAIL37
: Tar Error TAR_ERR_HEADERPARSE_FAIL38
: Tar Error TAR_ERROR_HEAP
- π· ESP32 capture
- π· ESP8266 capture
- tarGzStreamExpander hates SPIFFS
- tarGzExpander/tarExpander: some formats aren't supported with SPIFFS (e.g contains symlinks or long filename/path)
- tarGzExpander without intermediate file hates situations with low heap
- tarGzExpander/gzExpander on ESP8266 : while the provided examples will work, the 32Kb dynamic allocation for gzip dictionary is unlikely to work in real world scenarios (e.g. with a webserver) and would probably require static allocation
- tarGzExpander: files smaller than 4K aren't processed
error detection isn't deferred efficiently, debugging may be painful.tar files containing files smaller than 512 bytes aren't fully processedreading/writing simultaneously on SPIFFS may induce errors
- ESP32: use all of the "Debug level" values from the boards menu
- ESP8266: Warning/Error when "Debug Port:Serial" is used, and Debug/Verbose when "Debug Level:Core" is selected from the boards menu
- LittleFS for ESP32
- ESP8266 Sketch Data Upload tool for LittleFS
- ESP32 Sketch Data Upload tool for FFat/LittleFS/SPIFFS
- https://github.com/laukik-hase/esp_compression inflate/deflate miniz/uzlib based esp-idf implementation
- pfalcon (uzlib maintainer)
- dsoprea (TinyUntar maintainer)
- lorol (LittleFS-ESP32 + fs plugin)
- me-no-dev (inspiration and support)
- atanisoft (motivation and support)
- lbernstone (motivation and support)
- scubachristopher (contribution and support)
- infrafast (feedback fueler)