IBM LoRa MAC in C (LMiC) mbed library port
Dependents: lora-temperature LoRaWAN-lmic-app_HS LoRaWAN-lmic-app_huynh
LoRa WAN in C for sx1276 shield
Currently version 1.5
LoRaWAN network configuration for end-device
The following three pieces of information uniquely identifies end-device to network to allow over-the-air activation. These are stored in the end-device prior to join procedure.
AppEUI
Uniquely identifies application provider of end-device.
Least-significant byte first, 8 bytes, use reverse memcpy() to keep same order as shown on lora server.
example C code
static const u1_t APPEUI[8] = { 0x01, 0x00, 0x01, 0x00, 0x00, 0x0C, 0x25, 0x00 };
This is copied into LMIC by os_getArtEui()
callback function in application.
DevEUI
End-device ID, unique to each end-node.
Least-significant byte first, 8 bytes, use reverse memcpy() to keep same order as shown on lora server.
example C code
static const u1_t DEVEUI[8] = { 0x00, 0x00, 0x00, 0x00, 0x01, 0x0C, 0x25, 0x00 };
This is copied into LMIC by os_getDevEui()
callback function in application.
AppKey (aka DevKey)
128-bit (16byte) AES key.
example C code
static const u1_t DEVKEY[16] = { 0xe4, 0x72, 0x71, 0xc5, 0xf5, 0x30, 0xa9, 0x9f, 0xcf, 0xc4, 0x0e, 0xab, 0xea, 0xd7, 0x19, 0x42 };
This is copied into LMIC by os_getDevKey()
callback function in application.
Using over-the air activation, the end-device (LMIC) performs a join procedure every time it starts for first time, or has lost session context information. When join procedure has successfully completed, the end-device will have a network session key (NwkSKey) and an application session key (AppSKey), which are used for encryption and message integrity check.
US915 configuration with http://us01-iot.semtech.com/
- log in to server
- click on Applications
- find your application and click it
- go to configure motes
- to create a mote, you may enter a new DevEUI
- you may copy-paste the 16byte application key from an already existing mote, if you desire.
CHNL_HYBRID | 125KHz | 500KHz |
---|---|---|
defined value | channels | channel |
0 | 0 to 7 | 64 |
1 | 8 to 15 | 65 |
2 | 16 to 23 | 66 |
3 | 24 to 31 | 67 |
4 | 32 to 39 | 68 |
5 | 40 to 47 | 69 |
6 | 48 to 55 | 70 |
7 | 56 to 63 | 71 |
undef | 0 to 63 | 64 to 71 |
oslmic.h
- Committer:
- mluis
- Date:
- 2015-11-26
- Revision:
- 4:85b2b647cb64
- Parent:
- 1:d3b7bde3995c
File content as of revision 4:85b2b647cb64:
/******************************************************************************* * Copyright (c) 2014-2015 IBM Corporation. * All rights reserved. This program and the accompanying materials * are made available under the terms of the Eclipse Public License v1.0 * which accompanies this distribution, and is available at * http://www.eclipse.org/legal/epl-v10.html * * Contributors: * IBM Zurich Research Lab - initial API, implementation and documentation *******************************************************************************/ //! \file #ifndef _oslmic_h_ #define _oslmic_h_ // Dependencies required for the LoRa MAC in C to run. // These settings can be adapted to the underlying system. // You should not, however, change the lmic.[hc] //================================================================================ //================================================================================ // Target platform as C library typedef unsigned char bit_t; typedef unsigned char u1_t; typedef signed char s1_t; typedef unsigned short u2_t; typedef short s2_t; typedef unsigned int u4_t; typedef int s4_t; typedef unsigned long long u8_t; typedef long long s8_t; typedef unsigned int uint; typedef const char* str_t; #include <string.h> #include "hal.h" #define EV(a,b,c) /**/ #define DO_DEVDB(field1,field2) /**/ #if !defined(CFG_noassert) #define ASSERT(cond) if(!(cond)) hal_failed() #else #define ASSERT(cond) /**/ #endif #define os_clearMem(a,b) memset(a,0,b) #define os_copyMem(a,b,c) memcpy(a,b,c) typedef struct osjob_t osjob_t; typedef struct band_t band_t; typedef struct chnldef_t chnldef_t; typedef struct rxsched_t rxsched_t; typedef struct bcninfo_t bcninfo_t; typedef const u1_t* xref2cu1_t; typedef u1_t* xref2u1_t; #define TYPEDEF_xref2rps_t typedef rps_t* xref2rps_t #define TYPEDEF_xref2rxsched_t typedef rxsched_t* xref2rxsched_t #define TYPEDEF_xref2chnldef_t typedef chnldef_t* xref2chnldef_t #define TYPEDEF_xref2band_t typedef band_t* xref2band_t #define TYPEDEF_xref2osjob_t typedef osjob_t* xref2osjob_t #define SIZEOFEXPR(x) sizeof(x) #define ON_LMIC_EVENT(ev) onEvent(ev) #define DECL_ON_LMIC_EVENT void onEvent(ev_t e) extern u4_t AESAUX[]; extern u4_t AESKEY[]; #define AESkey ((u1_t*)AESKEY) #define AESaux ((u1_t*)AESAUX) #define FUNC_ADDR(func) (&(func)) u1_t radio_rand1 (void); #define os_getRndU1() radio_rand1() #define DEFINE_LMIC struct lmic_t LMIC #define DECLARE_LMIC extern struct lmic_t LMIC void radio_init (void); void radio_irq_handler (u1_t dio); void os_init (void); void os_runloop (void); //================================================================================ #ifndef RX_RAMPUP #define RX_RAMPUP (us2osticks(2000)) #endif #ifndef TX_RAMPUP #define TX_RAMPUP (us2osticks(2000)) #endif #ifndef OSTICKS_PER_SEC #define OSTICKS_PER_SEC 15625 #elif OSTICKS_PER_SEC < 10000 || OSTICKS_PER_SEC > 64516 #error Illegal OSTICKS_PER_SEC - must be in range [10000:64516]. One tick must be 15.5us .. 100us long. #endif typedef s4_t ostime_t; #if !HAS_ostick_conv #define us2osticks(us) ((ostime_t)( ((s8_t)(us) * OSTICKS_PER_SEC) / 1000000)) #define ms2osticks(ms) ((ostime_t)( ((s8_t)(ms) * OSTICKS_PER_SEC) / 1000)) #define sec2osticks(sec) ((ostime_t)( (s8_t)(sec) * OSTICKS_PER_SEC)) #define osticks2ms(os) ((s4_t)(((os)*(s8_t)1000 ) / OSTICKS_PER_SEC)) #define osticks2us(os) ((s4_t)(((os)*(s8_t)1000000 ) / OSTICKS_PER_SEC)) // Special versions #define us2osticksCeil(us) ((ostime_t)( ((s8_t)(us) * OSTICKS_PER_SEC + 999999) / 1000000)) #define us2osticksRound(us) ((ostime_t)( ((s8_t)(us) * OSTICKS_PER_SEC + 500000) / 1000000)) #define ms2osticksCeil(ms) ((ostime_t)( ((s8_t)(ms) * OSTICKS_PER_SEC + 999) / 1000)) #define ms2osticksRound(ms) ((ostime_t)( ((s8_t)(ms) * OSTICKS_PER_SEC + 500) / 1000)) #endif struct osjob_t; // fwd decl. typedef void (*osjobcb_t) (struct osjob_t*); struct osjob_t { struct osjob_t* next; ostime_t deadline; osjobcb_t func; }; TYPEDEF_xref2osjob_t; #ifndef HAS_os_calls #ifndef os_getDevKey void os_getDevKey (xref2u1_t buf); #endif #ifndef os_getArtEui void os_getArtEui (xref2u1_t buf); #endif #ifndef os_getDevEui void os_getDevEui (xref2u1_t buf); #endif #ifndef os_setCallback void os_setCallback (xref2osjob_t job, osjobcb_t cb); #endif #ifndef os_setTimedCallback void os_setTimedCallback (xref2osjob_t job, ostime_t time, osjobcb_t cb); #endif #ifndef os_clearCallback void os_clearCallback (xref2osjob_t job); #endif #ifndef os_getTime ostime_t os_getTime (void); #endif #ifndef os_getTimeSecs uint os_getTimeSecs (void); #endif #ifndef os_radio void os_radio (u1_t mode); #endif #ifndef os_getBattLevel u1_t os_getBattLevel (void); #endif #ifndef os_rlsbf4 //! Read 32-bit quantity from given pointer in little endian byte order. u4_t os_rlsbf4 (xref2cu1_t buf); #endif #ifndef os_wlsbf4 //! Write 32-bit quntity into buffer in little endian byte order. void os_wlsbf4 (xref2u1_t buf, u4_t value); #endif #ifndef os_rmsbf4 //! Read 32-bit quantity from given pointer in big endian byte order. u4_t os_rmsbf4 (xref2cu1_t buf); #endif #ifndef os_wmsbf4 //! Write 32-bit quntity into buffer in big endian byte order. void os_wmsbf4 (xref2u1_t buf, u4_t value); #endif #ifndef os_rlsbf2 //! Read 16-bit quantity from given pointer in little endian byte order. u2_t os_rlsbf2 (xref2cu1_t buf); #endif #ifndef os_wlsbf2 //! Write 16-bit quntity into buffer in little endian byte order. void os_wlsbf2 (xref2u1_t buf, u2_t value); #endif //! Get random number (default impl for u2_t). #ifndef os_getRndU2 #define os_getRndU2() ((u2_t)((os_getRndU1()<<8)|os_getRndU1())) #endif #ifndef os_crc16 u2_t os_crc16 (xref2u1_t d, uint len); #endif #endif // !HAS_os_calls // ====================================================================== // AES support // !!Keep in sync with lorabase.hpp!! #ifndef AES_ENC // if AES_ENC is defined as macro all other values must be too #define AES_ENC 0x00 #define AES_DEC 0x01 #define AES_MIC 0x02 #define AES_CTR 0x04 #define AES_MICNOAUX 0x08 #endif #ifndef AESkey // if AESkey is defined as macro all other values must be too extern xref2u1_t AESkey; extern xref2u1_t AESaux; #endif #ifndef os_aes u4_t os_aes (u1_t mode, xref2u1_t buf, u2_t len); #endif #endif // _oslmic_h_