Adapted to LoRa Semtech + Nucleo

Dependencies:   LMiC SX1276Lib cantcoap lwip mbed-rtos mbed

Fork of LoRaWAN-lmic-app by Semtech

Committer:
pnysten
Date:
Mon Nov 23 09:54:36 2015 +0000
Revision:
5:97b629581096
Parent:
4:5e274bf85bf0
Encryption bypassed if port>0

Who changed what in which revision?

UserRevisionLine numberNew contents of line
pnysten 4:5e274bf85bf0 1 /* MtxCircBuf.h */
pnysten 4:5e274bf85bf0 2 /*
pnysten 4:5e274bf85bf0 3 Copyright (C) 2012 ARM Limited.
pnysten 4:5e274bf85bf0 4
pnysten 4:5e274bf85bf0 5 Permission is hereby granted, free of charge, to any person obtaining a copy of
pnysten 4:5e274bf85bf0 6 this software and associated documentation files (the "Software"), to deal in
pnysten 4:5e274bf85bf0 7 the Software without restriction, including without limitation the rights to
pnysten 4:5e274bf85bf0 8 use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
pnysten 4:5e274bf85bf0 9 of the Software, and to permit persons to whom the Software is furnished to do
pnysten 4:5e274bf85bf0 10 so, subject to the following conditions:
pnysten 4:5e274bf85bf0 11
pnysten 4:5e274bf85bf0 12 The above copyright notice and this permission notice shall be included in all
pnysten 4:5e274bf85bf0 13 copies or substantial portions of the Software.
pnysten 4:5e274bf85bf0 14
pnysten 4:5e274bf85bf0 15 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
pnysten 4:5e274bf85bf0 16 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
pnysten 4:5e274bf85bf0 17 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
pnysten 4:5e274bf85bf0 18 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
pnysten 4:5e274bf85bf0 19 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
pnysten 4:5e274bf85bf0 20 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
pnysten 4:5e274bf85bf0 21 SOFTWARE.
pnysten 4:5e274bf85bf0 22 */
pnysten 4:5e274bf85bf0 23
pnysten 4:5e274bf85bf0 24 #ifndef MTXCIRCBUFFER_H
pnysten 4:5e274bf85bf0 25 #define MTXCIRCBUFFER_H
pnysten 4:5e274bf85bf0 26
pnysten 4:5e274bf85bf0 27 #include "fwk.h"
pnysten 4:5e274bf85bf0 28
pnysten 4:5e274bf85bf0 29 #include "rtos.h"
pnysten 4:5e274bf85bf0 30
pnysten 4:5e274bf85bf0 31 //Mutex protected circualr buffer
pnysten 4:5e274bf85bf0 32 template<typename T, int size>
pnysten 4:5e274bf85bf0 33 class MtxCircBuffer
pnysten 4:5e274bf85bf0 34 {
pnysten 4:5e274bf85bf0 35 public:
pnysten 4:5e274bf85bf0 36 MtxCircBuffer() //:
pnysten 4:5e274bf85bf0 37 //mtx()
pnysten 4:5e274bf85bf0 38 {
pnysten 4:5e274bf85bf0 39 write = 0;
pnysten 4:5e274bf85bf0 40 read = 0;
pnysten 4:5e274bf85bf0 41 }
pnysten 4:5e274bf85bf0 42
pnysten 4:5e274bf85bf0 43 bool isFull()
pnysten 4:5e274bf85bf0 44 {
pnysten 4:5e274bf85bf0 45 mtx.lock();
pnysten 4:5e274bf85bf0 46 bool r = (((write + 1) % size) == read);
pnysten 4:5e274bf85bf0 47 mtx.unlock();
pnysten 4:5e274bf85bf0 48 return r;
pnysten 4:5e274bf85bf0 49 }
pnysten 4:5e274bf85bf0 50
pnysten 4:5e274bf85bf0 51 bool isEmpty()
pnysten 4:5e274bf85bf0 52 {
pnysten 4:5e274bf85bf0 53 mtx.lock();
pnysten 4:5e274bf85bf0 54 bool r = (read == write);
pnysten 4:5e274bf85bf0 55 mtx.unlock();
pnysten 4:5e274bf85bf0 56 return r;
pnysten 4:5e274bf85bf0 57 }
pnysten 4:5e274bf85bf0 58
pnysten 4:5e274bf85bf0 59 void queue(T k)
pnysten 4:5e274bf85bf0 60 {
pnysten 4:5e274bf85bf0 61 mtx.lock();
pnysten 4:5e274bf85bf0 62 while (((write + 1) % size) == read) //if (isFull())
pnysten 4:5e274bf85bf0 63 {
pnysten 4:5e274bf85bf0 64 /*while((((write + 1) % size) == read))
pnysten 4:5e274bf85bf0 65 {*/
pnysten 4:5e274bf85bf0 66 mtx.unlock();
pnysten 4:5e274bf85bf0 67 Thread::wait(10);
pnysten 4:5e274bf85bf0 68 mtx.lock();
pnysten 4:5e274bf85bf0 69 /*}*/
pnysten 4:5e274bf85bf0 70 //read++;
pnysten 4:5e274bf85bf0 71 //read %= size;
pnysten 4:5e274bf85bf0 72 }
pnysten 4:5e274bf85bf0 73 buf[write++] = k;
pnysten 4:5e274bf85bf0 74 write %= size;
pnysten 4:5e274bf85bf0 75 mtx.unlock();
pnysten 4:5e274bf85bf0 76 }
pnysten 4:5e274bf85bf0 77
pnysten 4:5e274bf85bf0 78 uint16_t available()
pnysten 4:5e274bf85bf0 79 {
pnysten 4:5e274bf85bf0 80 mtx.lock();
pnysten 4:5e274bf85bf0 81 uint16_t a = (write >= read) ? (write - read) : (size - read + write);
pnysten 4:5e274bf85bf0 82 mtx.unlock();
pnysten 4:5e274bf85bf0 83 return a;
pnysten 4:5e274bf85bf0 84 }
pnysten 4:5e274bf85bf0 85
pnysten 4:5e274bf85bf0 86 bool dequeue(T * c)
pnysten 4:5e274bf85bf0 87 {
pnysten 4:5e274bf85bf0 88 mtx.lock();
pnysten 4:5e274bf85bf0 89 bool empty = (read == write);
pnysten 4:5e274bf85bf0 90 if (!empty)
pnysten 4:5e274bf85bf0 91 {
pnysten 4:5e274bf85bf0 92 *c = buf[read++];
pnysten 4:5e274bf85bf0 93 read %= size;
pnysten 4:5e274bf85bf0 94 }
pnysten 4:5e274bf85bf0 95 mtx.unlock();
pnysten 4:5e274bf85bf0 96 return (!empty);
pnysten 4:5e274bf85bf0 97 }
pnysten 4:5e274bf85bf0 98
pnysten 4:5e274bf85bf0 99 private:
pnysten 4:5e274bf85bf0 100 volatile uint16_t write;
pnysten 4:5e274bf85bf0 101 volatile uint16_t read;
pnysten 4:5e274bf85bf0 102 volatile T buf[size];
pnysten 4:5e274bf85bf0 103 Mutex mtx;
pnysten 4:5e274bf85bf0 104 };
pnysten 4:5e274bf85bf0 105
pnysten 4:5e274bf85bf0 106 #endif
pnysten 4:5e274bf85bf0 107