/* This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include #include "AP_RangeFinder_uLanding.h" #include #define ULANDING_HDR 254 // Header Byte from uLanding (0xFE) #define ULANDING_HDR_V0 72 // Header Byte for beta V0 of uLanding (0x48) extern const AP_HAL::HAL& hal; /* detect uLanding Firmware Version */ bool AP_RangeFinder_uLanding::detect_version(void) { if (_version_known) { // return true if we've already detected the uLanding version return true; } else if (uart == nullptr) { return false; } bool hdr_found = false; uint8_t byte1 = 0; uint8_t count = 0; // read any available data from uLanding int16_t nbytes = uart->available(); while (nbytes-- > 0) { uint8_t c = uart->read(); if (((c == ULANDING_HDR_V0) || (c == ULANDING_HDR)) && !hdr_found) { byte1 = c; hdr_found = true; count++; } else if (hdr_found) { if (byte1 == ULANDING_HDR_V0) { if (++count < 4) { /* need to collect 4 bytes to check for recurring * header byte in the old 3-byte data format */ continue; } else { if (c == byte1) { // if header byte is recurring, set uLanding Version _version = 0; _header = ULANDING_HDR_V0; _version_known = true; return true; } else { /* if V0 header byte didn't occur again on 4th byte, * start the search again for a header byte */ count = 0; byte1 = 0; hdr_found = false; } } } else { if ((c & 0x80) || (c == ULANDING_HDR_V0)) { /* Though unlikely, it is possible we could find ULANDING_HDR * in a data byte from the old 3-byte format. In this case, * either the next byte is another data byte (which by default * is of the form 0x1xxxxxxx), or the next byte is the old * header byte (ULANDING_HDR_V0). In this case, start the search * again for a header byte. */ count = 0; byte1 = 0; hdr_found = false; } else { /* if this second byte passes the above if statement, this byte * is the version number */ _version = c; _header = ULANDING_HDR; _version_known = true; return true; } } } } /* return false if we've gone through all available data * and haven't detected a uLanding firmware version */ return false; } // read - return last value measured by sensor bool AP_RangeFinder_uLanding::get_reading(float &reading_m) { if (uart == nullptr) { return false; } if (!detect_version()) { // return false if uLanding version check failed return false; } // read any available lines from the uLanding float sum = 0; uint16_t count = 0; bool hdr_found = false; int16_t nbytes = uart->available(); while (nbytes-- > 0) { uint8_t c = uart->read(); if ((c == _header) && !hdr_found) { // located header byte _linebuf_len = 0; hdr_found = true; } // decode index information if (hdr_found) { _linebuf[_linebuf_len++] = c; if ((_linebuf_len < (sizeof(_linebuf)/sizeof(_linebuf[0]))) || (_version == 0 && _linebuf_len < 3)) { /* don't process _linebuf until we've collected six bytes of data * (or 3 bytes for Version 0 firmware) */ continue; } else { if (_version == 0 && _header != ULANDING_HDR) { // parse data for Firmware Version #0 sum += (_linebuf[2]&0x7F)*128 + (_linebuf[1]&0x7F); count++; } else { // evaluate checksum if (((_linebuf[1] + _linebuf[2] + _linebuf[3] + _linebuf[4]) & 0xFF) == _linebuf[5]) { // if checksum passed, parse data for Firmware Version #1 sum += _linebuf[3]*256 + _linebuf[2]; count++; } } hdr_found = false; _linebuf_len = 0; } } } if (count == 0) { return false; } reading_m = (sum * 0.01f) / count; if (_version == 0 && _header != ULANDING_HDR) { reading_m *= 2.5f; } return true; }