crc
parent
dd493fa1d6
commit
aef290e8ee
239
bluetooth.m
239
bluetooth.m
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@ -32,16 +32,36 @@ function arr = flipOctects(arr)
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arr(i:i + 7) = flip(arr(i:i + 7));
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endfor
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endfunction
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# Converts array of bits to hex string
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function [hex_str, hex_len] = mat2hexStr(arr)
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hex_str = '';
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nums = ceil(length(arr) / 52);
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for i = 1:nums
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start = (i - 1) * 52 + 1;
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if i == nums
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limit = length(arr);
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else
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limit = i * 52;
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endif
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arrStr = strrep(strrep(strrep(mat2str(arr(start:limit)), '[', ''), ']', ''), ' ', '');
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arrNum = bin2dec(arrStr);
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outStr = sprintf("%X", arrNum);
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hex_str = strcat(hex_str, outStr);
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endfor
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hex_len = length(hex_str);
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endfunction
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#############################################
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# Loads data from file
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function loadFile(fileName = "frames.mat", dataName = "advertising_data_known", channelName = "channel")
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function loadFile(dataName, channelName, fileName)
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global data;
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global channel;
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global total_len_dec;
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load(fileName);
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eval (strcat("data = ", dataName, ";"));
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eval (strcat("channel = ", channelName, ";"));
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total_len_dec = length(data);
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endfunction
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## Extracts preamble from data
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@ -136,36 +156,36 @@ function getPDUHeader()
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header_struct = struct("header", header, "pdutype", pdutype, "pdutype_dec", pdutype_dec, "reserved_1", reserved_1, "tx_add", tx_add, "rx_add", rx_add, "length", payload_len_dec, "reserved_2", reserved_2);
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endfunction
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## Sets pdu struct to correct vars and store payload
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## Sets pdu struct to correct vars and store payload, and update pduArray with flipped values
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function setPayloadFields()
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global pduArray;
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global header_struct;
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global payload_struct;
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field2_len = header_struct.length - 6;
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pdutype_dec = header_struct.pdutype_dec;
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payload_len = length(pduArray) - 16;
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payload = pduArray(17:length(pduArray));
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field2_len = header_struct.length - 6;
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pdutype_dec = header_struct.pdutype_dec;
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payload_len = length(pduArray) - 16;
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payload = pduArray(17:length(pduArray));
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# ADV_IND, ADV_NONNCONN_IND, ADV_SCAN_IND
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if pdutype_dec == 0 || pdutype_dec == 2 || pdutype_dec == 6
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payload_struct = struct("payload", {payload_len, payload}, "advA", {6, -1}, "advData", {field2_len, -1});
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payload_struct = struct("payload", {payload_len, payload}, "advA", {6, -1}, "advA_hexStr", {-1, -1}, "advData", {field2_len, -1}, "advData_hexStr", {-1, -1});
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setPDUField_026();
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# ADV_DIRECT_IND
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elseif pdutype_dec == 1
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payload_struct = struct("payload", {payload_len, payload}, "advA", {6, -1}, "initA", {6, -1});
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payload_struct = struct("payload", {payload_len, payload}, "advA", {6, -1}, "advA_hexStr", {-1, -1}, "initA", {6, -1}, "initA_hexStr", {-1, -1});
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setPDUField_1();
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# SCAN_REQ
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elseif pdutype_dec == 3
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payload_struct = struct("payload", {payload_len, payload}, "scanA", {6, -1}, "advA", {6, -1});
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payload_struct = struct("payload", {payload_len, payload}, "scanA", {6, -1}, "scanA_hexStr", {-1, -1}, "advA", {6, -1}, "advA_hexStr", {-1, -1});
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setPDUField_3();
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# SCAN_RSP
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elseif pdutype_dec == 4
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payload_struct = struct("payload", {payload_len, payload}, "advA", {6, -1}, "scanRspData", {field2_len, -1});
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payload_struct = struct("payload", {payload_len, payload}, "advA", {6, -1}, "advA_hexStr", {-1, -1}, "scanRspData", {field2_len, -1}, "scanRspData_hexStr", {-1, -1});
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setPDUField_4();
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# CONNECT_REQ
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elseif pdutype_dec == 5
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payload_struct = struct("payload", {payload_len, payload}, "initA", {6, -1}, "advA", {6, -1}, "llData", {22, -1});
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payload_struct = struct("payload", {payload_len, payload}, "initA", {6, -1}, "initA_hexStr", {-1, -1}, "advA", {6, -1}, "advA_hexStr", {-1, -1}, "llData", {22, -1}, "llData_hexStr", {-1, -1});
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setPDUField_5();
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endif
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endfunction
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@ -174,93 +194,163 @@ endfunction
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# ADV_IND, ADV_NONNCONN_IND, ADV_SCAN_IND
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function setPDUField_026()
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global payload_struct;
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tS1 = payload_struct(1);
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tS2 = payload_struct(2);
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payload = payload_struct(2).payload;
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payload = tS2.payload;
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advA_len = 8 * payload_struct(1).advA;
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advData_len = 8 * payload_struct(1).advData;
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payload_struct(2).advA = flip(payload(1:advA_len));
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payload_struct(2).advData = flipOctects(payload(advA_len + 1:advA_len + advData_len));
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advA_len = 8 * tS1.advA;
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advData_len = 8 * tS1.advData;
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tS2.advA = flip(payload(1:advA_len));
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tS2.advData = flipOctects(payload(advA_len + 1:advA_len + advData_len));
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tS2.payload = cat(2, tS2.advA, tS2.advData);
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[tS2.advA_hexStr, tS1.advA_hexStr] = mat2hexStr(tS2.advA);
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[tS2.advData_hexStr, tS1.advData_hexStr] = mat2hexStr(tS2.advData);
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payload_struct(1) = tS1;
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payload_struct(2) = tS2;
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endfunction
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# ADV_DIRECT_IND
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function setPDUField_1()
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global payload_struct;
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tS1 = payload_struct(1);
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tS2 = payload_strcut(2);
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payload = payload_struct(2).payload;
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payload = tS2.payload;
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advA_len = 8 * payload_struct(1).advA;
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initA_len = 8 * payload_struct(1).initA;
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payload_struct(2).advA = flip(payload(1:advA_len));
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payload_struct(2).initA = flipOctects(payload(advA_len + 1:advA_len + initA_len));
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advA_len = 8 * tS1.advA;
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initA_len = 8 * tS1.initA;
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tS2.advA = flip(payload(1:advA_len));
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tS2.initA = flipOctects(payload(advA_len + 1:advA_len + initA_len));
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tS2.payload = cat(2, tS2.advA, tS2.initA);
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[tS2.advA_hexStr, tS1.advA_hexStr] = mat2hexStr(tS2.advA);
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[tS2.initA_hexStr, tS1.initA_hexStr] = mat2hexStr(tS2.initA);
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payload_struct(1) = tS1;
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payload_struct(2) = tS2;
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endfunction
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# SCAN_REQ
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function setPDUField_3()
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global payload_struct;
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tS1 = payload_struct(1);
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tS2 = payload_struct(2);
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payload = payload_struct(2).payload;
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payload = tS2.payload;
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scanA_len = 8 * payload_struct(1).scanA;
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advA_len = 8 * payload_struct(1).advA;
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payload_struct(2).scanA = flip(payload(1:scanA_len));
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payload_struct(2).advA = flipOctects(payload(scanA_len + 1:scanA_len + advA_len));
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scanA_len = 8 * tS1.scanA;
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advA_len = 8 * tS1.advA;
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tS2.scanA = flip(payload(1:scanA_len));
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tS2.advA = flipOctects(payload(scanA_len + 1:scanA_len + advA_len));
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tS2.payload = cat(2, tS2.scanA, tS2.advA);
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[tS2.scanA_hexStr, tS1.scanA_hexStr] = mat2hexStr(tS2.scanA);
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[tS2.advA_hexStr, tS1.advA_hexStr] = mat2hexStr(tS2.advA);
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payload_struct(1) = tS1;
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payload_struct(2) = tS2;
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endfunction
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# SCAN_RSP
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function setPDUField_4()
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global payload_struct;
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tS1 = payload_struct(1);
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tS2 = payload_strcut(2);
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payload = payload_struct(2).payload;
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payload = tS2.payload;
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advA_len = 8 * payload_struct(1).advA;
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scanRspData_len = 8 * payload_struct(1).scanRspData;
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payload_struct(2).advA = flip(payload(1:advA_len));
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payload_struct(2).scanRspData = flipOctects(payload(advA_len + 1:advA_len + scanRspData_len));
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advA_len = 8 * tS1.advA;
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scanRspData_len = 8 * tS1.scanRspData;
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tS2.advA = flip(payload(1:advA_len));
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tS2.scanRspData = flipOctects(payload(advA_len + 1:advA_len + scanRspData_len));
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tS2.payload = cat(2, tS2.advA, tS2.scanRspData);
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[tS2.advA_hexStr, tS1.advA_hexStr] = mat2hexStr(tS2.advA);
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[tS2.scanRspData_hexStr, tS1.scapRspData_hexStr] = mat2hexStr(tS2.advscanRspData);
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payload_struct(1) = tS1;
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payload_struct(2) = tS2
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endfunction
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# CONNECT_REQ
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function setPDUField_5()
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global payload_struct;
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tS1 = payload_struct(1);
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tS2 = payload_strcut(2);
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payload = payload_struct(2).payload;
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initA_len = 8 * payload_struct(1).initA;
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advA_len = 8 * payload_struct(1).advA;
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llData_len = 8 * payload_struct(1).llData;
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payload_struct(2).initA = flip(payload(1:initA_len));
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payload_struct(2).advA = flipOctects(payload(initA_len + 1:initA_len + advA_len));
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payload_struct(2).llData = flipOctects(payload(initA_len + advA_len + 1:initA_len + advA_len + llData_len));
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initA_len = 8 * tS1.initA;
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advA_len = 8 * tS1.advA;
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llData_len = 8 * tS1.llData;
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tS2.initA = flip(payload(1:initA_len));
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tS2.advA = flipOctects(payload(initA_len + 1:initA_len + advA_len));
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tS2.llData = flipOctects(payload(initA_len + advA_len + 1:initA_len + advA_len + llData_len));
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tS2.payload = cat(2, tS2.initA, tS2.advA, tS2.llData);
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[tS2.initA_hexStr, tS1.initA_hexStr] = mat2hexStr(tS2.initA);
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[tS2.advA_hexStr, tS1.advA_hexStr] = mat2hexStr(tS2.advA);
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[tS2.llData_hexStr, tS1.llData_hexStr] = mat2hexStr(tS2.llData);
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payload_struct(1) = tS1;
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payload_struct(2) = tS2
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endfunction
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## Calculates crc & sets up struct
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# crc_rx_dec is calculated crc, crc is transmitted
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# crc_dec is calculated crc, crc_rx_dec is transmitted
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function setCRC()
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global pduArray;
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global crcArray;
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global crc_struct;
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crc_rx = flipOctects(crcArray);
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x55 = [0 1 0 1 0 1 0 1];
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crc = cat(2, x55, x55, x55);
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crc_rx_dec = uint32(0);
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crc_dec = uint32(0);
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crc_flag = 0;
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crc = flipOctects(crcArray)
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## CONVERT crc to crc_dec
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## CALC CRC
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crc_dec = 0x555555;
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crc_rx_dec = -1;
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## COMPARE crc_dec, crc_rx_dec
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crc_flag = -1;
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crc_struct = struct("crc", crc, "crc_dec", crc_dec, "crc_rx_dec", crc_rx_dec, "crc_flag", crc_flag);
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for i = 1:length(pduArray)
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newBit = bitxor(crc(1), pduArray(i));
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crc = shift(crc, -1);
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crc(24) = newBit;
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crc(23) = bitxor(crc(23), newBit);
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crc(21) = bitxor(crc(21), newBit);
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crc(20) = bitxor(crc(20), newBit);
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crc(18) = bitxor(crc(18), newBit);
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crc(15) = bitxor(crc(15), newBit);
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crc(14) = bitxor(crc(14), newBit);
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endfor
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crc = flipOctects(crc);
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for i = 1:24
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crc_rx_dec = bitset(crc_rx_dec, 25 - i, crc_rx(i));
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crc_dec = bitset(crc_dec, 25 - i, crc(i));
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endfor
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if crc_rx_dec == crc_dec
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crc_flag = 1;
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endif
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crc_struct = struct("crc", crc, "crc_rx", crc_rx, "crc_dec", crc_dec, "crc_rx_dec", crc_rx_dec, "crc_flag", crc_flag);
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endfunction
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## print Everything
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# Print Everything
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function printAll()
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global total_len_dec;
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global preamble;
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global access_address;
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global header_struct;
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global payload_struct;
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global crc_struct;
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printf("Preamble: 0x%X\n", preamble);
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printf("Access Address: 0x%X\n", access_address);
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# Print header fields (Too much variety to use a for loop)
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printf("PDU Type: %s\n", header_struct.pdutype);
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printf("PDU Dec: %s\n", header_struct.pdutype_dec);
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printf("PDU Dec: %d\n", header_struct.pdutype_dec);
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printf("Reserved 1: ");
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disp(header_struct.reserved_1);
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printf("Tx_Add: %d\n", header_struct.tx_add);
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printf("Reserved 2: ");
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disp(header_struct.reserved_2);
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printf("CRC_DEC: %X\n", crc_struct.crc_dec);
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printf("CRC_RX_DEC: %X\n", crc_struct.crc_rx_dec);
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printf("CRC_FLAG: %X\n", crc_struct.crc_flag);
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printf("CRC_ARRAY: \n");
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disp(crc_struct.crc);
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# Print payload fields
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for [val, key] = payload_struct(2)
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if index(key, "_hexStr") != 0
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printf("%s: 0x%s\n", key, val);
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endif
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endfor
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# Print crc fields
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for [val, key] = crc_struct(1)
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if index(key, "dec") != 0 || strcmp(key, "crc_flag") == 1
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printf("%s: 0x%X\n", key, val);
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endif
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endfor
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# Total Length
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printf("total_len_dec: %d\n", total_len_dec);
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endfunction
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## Actually call functions
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#############################################
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loadFile();
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getPreamble();
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getAccessAddress();
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deWhitenPDUCRC();
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getPDUHeader();
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setPayloadFields();
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setCRC();
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printAll();
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function main(dataName = "advertising_data_unknown", channelName = "channel", fileName = "frames.mat")
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arg_list = argv();
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if length(arg_list) > 0
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dataName = arg_list{1};
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endif
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if length(arg_list) > 1
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channelName = arg_list{2};
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endif
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if length(arg_list) > 2
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fileName = arg_list{3};
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endif
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loadFile(dataName, channelName, fileName);
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getPreamble();
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getAccessAddress();
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deWhitenPDUCRC();
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getPDUHeader();
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setPayloadFields();
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setCRC();
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printAll();
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endfunction
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main();
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