Beispiel #1
0
HSD_poll_res heatshrink_decoder_poll(heatshrink_decoder *hsd,
        uint8_t *out_buf, size_t out_buf_size, size_t *output_size) {
    if ((hsd == NULL) || (out_buf == NULL) || (output_size == NULL)) {
        return HSDR_POLL_ERROR_NULL;
    }
    *output_size = 0;

    output_info oi;
    oi.buf = out_buf;
    oi.buf_size = out_buf_size;
    oi.output_size = output_size;

    while (1) {
        LOG("-- poll, state is %d (%s), input_size %d\n",
            hsd->state, state_names[hsd->state], hsd->input_size);
        uint8_t in_state = hsd->state;
        switch (in_state) {
        case HSDS_EMPTY:
            return HSDR_POLL_EMPTY;
        case HSDS_INPUT_AVAILABLE:
            hsd->state = st_input_available(hsd);
            break;
        case HSDS_YIELD_LITERAL:
            hsd->state = st_yield_literal(hsd, &oi);
            break;
        case HSDS_BACKREF_INDEX_MSB:
            hsd->state = st_backref_index_msb(hsd);
            break;
        case HSDS_BACKREF_INDEX_LSB:
            hsd->state = st_backref_index_lsb(hsd);
            break;
        case HSDS_BACKREF_COUNT_MSB:
            hsd->state = st_backref_count_msb(hsd);
            break;
        case HSDS_BACKREF_COUNT_LSB:
            hsd->state = st_backref_count_lsb(hsd);
            break;
        case HSDS_YIELD_BACKREF:
            hsd->state = st_yield_backref(hsd, &oi);
            break;
        case HSDS_CHECK_FOR_MORE_INPUT:
            hsd->state = st_check_for_input(hsd);
            break;
        default:
            return HSDR_POLL_ERROR_UNKNOWN;
        }
        
        /* If the current state cannot advance, check if input or output
         * buffer are exhausted. */
        if (hsd->state == in_state) {
            if (*output_size == out_buf_size) { return HSDR_POLL_MORE; }
            return HSDR_POLL_EMPTY;
        }
    }
}
HSE_poll_res heatshrink_encoder_poll(heatshrink_encoder *hse,
        uint8_t *out_buf, size_t out_buf_size, size_t *output_size) {
    if ((hse == NULL) || (out_buf == NULL) || (output_size == NULL)) {
        return HSER_POLL_ERROR_NULL;
    }
    if (out_buf_size == 0) {
        LOG("-- MISUSE: output buffer size is 0\n");
        return HSER_POLL_ERROR_MISUSE;
    }
    *output_size = 0;

    output_info oi;
    oi.buf = out_buf;
    oi.buf_size = out_buf_size;
    oi.output_size = output_size;

    while (1) {
        LOG("-- polling, state %u (%s), flags 0x%02x\n",
            hse->state, state_names[hse->state], hse->flags);

        uint8_t in_state = hse->state;
        switch (in_state) {
        case HSES_NOT_FULL:
            return HSER_POLL_EMPTY;
        case HSES_FILLED:
            do_indexing(hse);
            hse->state = HSES_SEARCH;
            break;
        case HSES_SEARCH:
            hse->state = st_step_search(hse);
            break;
        case HSES_YIELD_TAG_BIT:
            hse->state = st_yield_tag_bit(hse, &oi);
            break;
        case HSES_YIELD_LITERAL:
            hse->state = st_yield_literal(hse, &oi);
            break;
        case HSES_YIELD_BR_INDEX:
            hse->state = st_yield_br_index(hse, &oi);
            break;
        case HSES_YIELD_BR_LENGTH:
            hse->state = st_yield_br_length(hse, &oi);
            break;
        case HSES_SAVE_BACKLOG:
            hse->state = st_save_backlog(hse);
            break;
        case HSES_FLUSH_BITS:
            hse->state = st_flush_bit_buffer(hse, &oi);
        case HSES_DONE:
            return HSER_POLL_EMPTY;
        default:
            LOG("-- bad state %s\n", state_names[hse->state]);
            return HSER_POLL_ERROR_MISUSE;
        }

        if (hse->state == in_state) {
            /* Check if output buffer is exhausted. */
            if (*output_size == out_buf_size) return HSER_POLL_MORE;
        }
    }
}