unleashed-firmware/firmware/targets/f7/furi-hal/furi-hal-compress.c
Anna Prosvetova 558fa5670b
RPC: Add Virtual Display & Unify log tags (#814)
* RPC: Update protobuf sources
* RPC: Add Virtual Display
* Unify log tags
* RPC: Virtual Display placeholder
* Rpc: clear frame buffer callback before confirm.
* Firmware: full assert for hal, move fatfs initialization to furi hal.
* FuriHal: VCP optimizations, thread safe console. Rpc: adjust buffer sizes.

Co-authored-by: Aleksandr Kutuzov <alleteam@gmail.com>
2021-11-12 16:04:35 +03:00

224 lines
8.2 KiB
C

#include <furi-hal-compress.h>
#include <furi.h>
#include <lib/heatshrink/heatshrink_encoder.h>
#include <lib/heatshrink/heatshrink_decoder.h>
#define TAG "FuriHalCompress"
#define FURI_HAL_COMPRESS_ICON_ENCODED_BUFF_SIZE (512)
#define FURI_HAL_COMPRESS_ICON_DECODED_BUFF_SIZE (1024)
#define FURI_HAL_COMPRESS_EXP_BUFF_SIZE (1 << FURI_HAL_COMPRESS_EXP_BUFF_SIZE_LOG)
typedef struct {
uint8_t is_compressed;
uint8_t reserved;
uint16_t compressed_buff_size;
} FuriHalCompressHeader;
typedef struct {
heatshrink_decoder* decoder;
uint8_t compress_buff[FURI_HAL_COMPRESS_EXP_BUFF_SIZE + FURI_HAL_COMPRESS_ICON_ENCODED_BUFF_SIZE];
uint8_t decoded_buff[FURI_HAL_COMPRESS_ICON_DECODED_BUFF_SIZE];
} FuriHalCompressIcon;
struct FuriHalCompress {
heatshrink_encoder* encoder;
heatshrink_decoder* decoder;
uint8_t *compress_buff;
uint16_t compress_buff_size;
};
static FuriHalCompressIcon* icon_decoder;
static void furi_hal_compress_reset(FuriHalCompress* compress) {
furi_assert(compress);
heatshrink_encoder_reset(compress->encoder);
heatshrink_decoder_reset(compress->decoder);
memset(compress->compress_buff, 0, compress->compress_buff_size);
}
void furi_hal_compress_icon_init() {
icon_decoder = furi_alloc(sizeof(FuriHalCompressIcon));
icon_decoder->decoder = heatshrink_decoder_alloc(
icon_decoder->compress_buff,
FURI_HAL_COMPRESS_ICON_ENCODED_BUFF_SIZE,
FURI_HAL_COMPRESS_EXP_BUFF_SIZE_LOG,
FURI_HAL_COMPRESS_LOOKAHEAD_BUFF_SIZE_LOG);
heatshrink_decoder_reset(icon_decoder->decoder);
memset(icon_decoder->decoded_buff, 0, sizeof(icon_decoder->decoded_buff));
FURI_LOG_I(TAG, "Init OK");
}
void furi_hal_compress_icon_decode(const uint8_t* icon_data, uint8_t** decoded_buff) {
furi_assert(icon_data);
furi_assert(decoded_buff);
FuriHalCompressHeader* header = (FuriHalCompressHeader*) icon_data;
if(header->is_compressed) {
size_t data_processed = 0;
heatshrink_decoder_sink(icon_decoder->decoder, (uint8_t*)&icon_data[4], header->compressed_buff_size, &data_processed);
while(
heatshrink_decoder_poll(
icon_decoder->decoder,
icon_decoder->decoded_buff,
sizeof(icon_decoder->decoded_buff),
&data_processed) == HSDR_POLL_MORE
) {};
heatshrink_decoder_reset(icon_decoder->decoder);
memset(icon_decoder->compress_buff, 0, sizeof(icon_decoder->compress_buff));
*decoded_buff = icon_decoder->decoded_buff;
} else {
*decoded_buff = (uint8_t*)&icon_data[1];
}
}
FuriHalCompress* furi_hal_compress_alloc(uint16_t compress_buff_size) {
FuriHalCompress* compress = furi_alloc(sizeof(FuriHalCompress));
compress->compress_buff = furi_alloc(compress_buff_size + FURI_HAL_COMPRESS_EXP_BUFF_SIZE);
compress->encoder = heatshrink_encoder_alloc(compress->compress_buff, FURI_HAL_COMPRESS_EXP_BUFF_SIZE_LOG, FURI_HAL_COMPRESS_LOOKAHEAD_BUFF_SIZE_LOG);
compress->decoder = heatshrink_decoder_alloc(compress->compress_buff, compress_buff_size, FURI_HAL_COMPRESS_EXP_BUFF_SIZE_LOG, FURI_HAL_COMPRESS_LOOKAHEAD_BUFF_SIZE_LOG);
return compress;
}
void furi_hal_compress_free(FuriHalCompress* compress) {
furi_assert(compress);
heatshrink_encoder_free(compress->encoder);
heatshrink_decoder_free(compress->decoder);
free(compress->compress_buff);
free(compress);
}
bool furi_hal_compress_encode(FuriHalCompress* compress, uint8_t* data_in, size_t data_in_size, uint8_t* data_out, size_t data_out_size, size_t* data_res_size) {
furi_assert(compress);
furi_assert(data_in);
furi_assert(data_in_size);
size_t sink_size = 0;
size_t poll_size = 0;
HSE_sink_res sink_res;
HSE_poll_res poll_res;
HSE_finish_res finish_res;
bool encode_failed = false;
size_t sunk = 0;
size_t res_buff_size = sizeof(FuriHalCompressHeader);
// Sink data to encoding buffer
while((sunk < data_in_size) && !encode_failed) {
sink_res = heatshrink_encoder_sink(compress->encoder, &data_in[sunk], data_in_size - sunk, &sink_size);
if(sink_res != HSER_SINK_OK) {
encode_failed = true;
break;
}
sunk += sink_size;
do {
poll_res = heatshrink_encoder_poll(compress->encoder, &data_out[res_buff_size], data_out_size - res_buff_size, &poll_size);
if(poll_res < 0) {
encode_failed = true;
break;
}
res_buff_size += poll_size;
} while(poll_res == HSER_POLL_MORE);
}
// Notify sinking complete and poll encoded data
finish_res = heatshrink_encoder_finish(compress->encoder);
if(finish_res < 0) {
encode_failed = true;
} else {
do {
poll_res = heatshrink_encoder_poll(compress->encoder, &data_out[res_buff_size], data_out_size - 4 - res_buff_size, &poll_size);
if(poll_res < 0) {
encode_failed = true;
break;
}
res_buff_size += poll_size;
finish_res = heatshrink_encoder_finish(compress->encoder);
} while(finish_res != HSER_FINISH_DONE);
}
bool result = true;
// Write encoded data to output buffer if compression is efficient. Else - write header and original data
if(!encode_failed && (res_buff_size < data_in_size + 1)) {
FuriHalCompressHeader header = {.is_compressed = 0x01, .reserved = 0x00, .compressed_buff_size = res_buff_size};
memcpy(data_out, &header, sizeof(header));
*data_res_size = res_buff_size;
} else if (data_out_size > data_in_size) {
data_out[0] = 0x00;
memcpy(&data_out[1], data_in, data_in_size);
*data_res_size = data_in_size + 1;
} else {
*data_res_size = 0;
result = false;
}
furi_hal_compress_reset(compress);
return result;
}
bool furi_hal_compress_decode(FuriHalCompress* compress, uint8_t* data_in, size_t data_in_size, uint8_t* data_out, size_t data_out_size, size_t* data_res_size) {
furi_assert(compress);
furi_assert(data_in);
furi_assert(data_out);
furi_assert(data_res_size);
bool result = false;
bool decode_failed = false;
HSD_sink_res sink_res;
HSD_poll_res poll_res;
HSD_finish_res finish_res;
size_t sink_size = 0;
size_t res_buff_size = 0;
size_t poll_size = 0;
FuriHalCompressHeader* header = (FuriHalCompressHeader*) data_in;
if(header->is_compressed) {
// Sink data to decoding buffer
size_t compressed_size = header->compressed_buff_size;
size_t sunk = sizeof(FuriHalCompressHeader);
while(sunk < compressed_size && !decode_failed) {
sink_res = heatshrink_decoder_sink(compress->decoder, &data_in[sunk], compressed_size - sunk, &sink_size);
if(sink_res < 0) {
decode_failed = true;
break;
}
sunk += sink_size;
do {
poll_res = heatshrink_decoder_poll(compress->decoder, &data_out[res_buff_size], data_out_size, &poll_size);
if(poll_res < 0) {
decode_failed = true;
break;
}
res_buff_size += poll_size;
} while(poll_res == HSDR_POLL_MORE);
}
// Notify sinking complete and poll decoded data
if(!decode_failed) {
finish_res = heatshrink_decoder_finish(compress->decoder);
if(finish_res < 0) {
decode_failed = true;
} else {
do {
poll_res = heatshrink_decoder_poll(compress->decoder, &data_out[res_buff_size], data_out_size, &poll_size);
res_buff_size += poll_size;
finish_res = heatshrink_decoder_finish(compress->decoder);
} while(finish_res != HSDR_FINISH_DONE);
}
}
*data_res_size = res_buff_size;
result = !decode_failed;
} else if(data_out_size >= data_in_size - 1) {
memcpy(data_out, &data_in[1], data_in_size);
*data_res_size = data_in_size - 1;
result = true;
} else {
result = false;
}
furi_hal_compress_reset(compress);
return result;
}