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author | Sylvain Miermont <smiermont@semtech.com> | 2014-03-28 16:58:48 +0100 |
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committer | Sylvain Miermont <smiermont@semtech.com> | 2014-03-28 16:58:48 +0100 |
commit | f991b0e35ad1bd3b999c70e68c518bae91bd36a6 (patch) | |
tree | 7e098ae53dc1401d88efa12de3bfc24ff405d88c /libloragw/readme.md | |
parent | 0e2b2cfa32767e516870a4e6a2ce0b6cce827910 (diff) | |
download | lora_gateway-f991b0e35ad1bd3b999c70e68c518bae91bd36a6.tar.gz lora_gateway-f991b0e35ad1bd3b999c70e68c518bae91bd36a6.tar.bz2 lora_gateway-f991b0e35ad1bd3b999c70e68c518bae91bd36a6.zip |
v1.3.0v1.3.0
- Added TX power management.
- Added full support for SX1301 reference board.
- Changed build system with configuration for multiple chip/radio/band support.
- SX125x bandwidth set to 1MHz by default (was 800 kHz).
- Solved warnings with 64b integer printf when compiling on x86_64.
- Renamed helper programs to reduce the concentrator vs. gateway confusion.
Diffstat (limited to 'libloragw/readme.md')
-rw-r--r-- | libloragw/readme.md | 379 |
1 files changed, 379 insertions, 0 deletions
diff --git a/libloragw/readme.md b/libloragw/readme.md new file mode 100644 index 0000000..337ad5b --- /dev/null +++ b/libloragw/readme.md @@ -0,0 +1,379 @@ + / _____) _ | | + ( (____ _____ ____ _| |_ _____ ____| |__ + \____ \| ___ | (_ _) ___ |/ ___) _ \ + _____) ) ____| | | || |_| ____( (___| | | | + (______/|_____)_|_|_| \__)_____)\____)_| |_| + (C)2013 Semtech-Cycleo + +LoRa concentrator HAL user manual +============================ + +1. Introduction +--------------- + +The LoRa concentrator Hardware Abstraction Layer is a C library that allow you +to use a Semtech concentrator chip through a reduced number of high level C +functions to configure the hardware, send and receive packets. + +The Semtech LoRa concentrator is a digital multi-channel multi-standard packet +radio used to send and receive packets wirelessly using LoRa or FSK modulations. + +2. Components of the library +---------------------------- + +The library is composed of 5 modules: + +* loragw_hal +* loragw_reg +* loragw_spi +* loragw_aux +* loragw_gps + +The library also contains 4 test programs to demonstrate code use and check +functionality. + +### 2.1. loragw_hal ### + +This is the main module and contains the high level functions to configure and +use the LoRa concentrator: + +* lgw_rxrf_setconf, to set the configuration of the radio channels +* lgw_rxif_setconf, to set the configuration of the IF+modem channels +* lgw_start, to apply the set configuration to the hardware and start it +* lgw_stop, to stop the hardware +* lgw_receive, to fetch packets if any was received +* lgw_send, to send a single packet (non-blocking, see warning in usage section) +* lgw_status, to check when a packet has effectively been sent + +For an standard application, include only this module. +The use of this module is detailed on the usage section. + +### 2.2. loragw_reg ### + +This module is used to access to the LoRa concentrator registers by name instead +of by address: + +* lgw_connect, to initialise and check the connection with the hardware +* lgw_disconnect, to disconnect the hardware +* lgw_soft_reset, to reset the whole hardware by resetting the register array +* lgw_reg_check, to check all registers vs. their default value and output the +result to a file +* lgw_reg_r, read a named register +* lgw_reg_w, write a named register +* lgw_reg_rb, read a name register in burst +* lgw_reg_wb, write a named register in burst + +This module handles pagination, read-only registers protection, multi-byte +registers management, signed registers management, read-modify-write routines +for sub-byte registers and read/write burst fragmentation to respect SPI +maximum burst length constraints. + +It make the code much easier to read and to debug. +Moreover, if registers are relocated between different hardware revisions but +keep the same function, the code written using register names can be reused "as +is". + +If you need access to all the registers, include this module in your +application. + +**/!\ Warning** please be sure to have a good understanding of the LoRa +concentrator inner working before accessing the internal registers directly. + +### 2.3. loragw_spi ### + +This module contains the functions to access the LoRa concentrator register +array through the SPI interface: + +* lgw_spi_r to read one byte +* lgw_spi_w to write one byte +* lgw_spi_rb to read two bytes or more +* lgw_spi_wb to write two bytes or more + +Please *do not* include that module directly into your application. + +**/!\ Warning** Accessing the LoRa concentrator register array without the +checks and safety provided by the functions in loragw_reg is not recommended. + +### 2.4. loragw_aux ### + +This module contains a single host-dependant function wait_ms to pause for a +defined amount of milliseconds. + +The procedure to start and configure the LoRa concentrator hardware contained in +the loragw_hal module requires to wait for several milliseconds at certain +steps, typically to allow for supply voltages or clocks to stabilize after been +switched on. + +An accuracy of 1 ms or less is ideal. +If your system doesn't allow that level of accuracy, make sure that the actual +delay is *longer* that the time specified when the function is called (ie. +wait_ms(X) **MUST NOT** before X milliseconds under any circumstance). + +If the minimum delays are not guaranteed during the configuration and start +procedure, the hardware might not work at nominal performance. +Most likely, it will not work at all. + +### 2.5. loragw_gps ### + +This module contains functions to synchronize the concentrator internal +counter with an absolute time reference, in our case a GPS satellite receiver. + +The internal concentrator counter is used to timestamp incoming packets and to +triggers outgoing packets with a microsecond accuracy. +In some cases, it might be useful to be able to transform that internal +timestamp (that is independent for each concentrator running in a typical +networked system) into an absolute UTC time. + +In a typical implementation a GPS specific thread will be called, doing the +following things after opening the serial port: + +* blocking reads on the serial port (using system read() function) +* parse NMEA sentences (using lgw_parse_nmea) + +And each time an RMC sentence has been received: + +* get the concentrator timestamp (using lgw_get_trigcnt, mutex needed to + protect access to the concentrator) +* get the UTC time contained in the NMEA sentence (using lgw_gps_get) +* call the lgw_gps_sync function (use mutex to protect the time reference that + should be a global shared variable). + +Then, in other threads, you can simply used that continuously adjusted time +reference to convert internal timestamps to UTC time (using lgw_cnt2utc) or +the other way around (using lgw_utc2cnt). + +3. Software build process +-------------------------- + +### 3.1. Details of the software ### + +The library is written following ANSI C conventions but using C99 explicit +length data type for all data exchanges with hardware and for parameters. + +The loragw_aux module contains POSIX dependant functions for millisecond +accuracy pause. +For embedded platforms, the function could be rewritten using hardware timers. + +### 3.2. Building options ### + +All modules use a fprintf(stderr,...) function to display debug diagnostic +messages if the DEBUG_xxx is set to 1 in library.cfg + +The other settings available in library.cfg are: + +* CFG_SPI configures how the link between the host and the concentrator chip + is done. + +* CFG_CHIP configures what the exact model of chip is, because there are small + differences in capabilities between the 'normal' SX1301 production chip, and + the FPGA-based version. + +* CFG_RADIO configures what chips are used for radios. Only the SX125x are + supported for now, but other radios could be supported if drivers are added. + +* CFG_BAND configures frequency band limits. If you plan to use you system in + a specific band, the library can be used to enforced minimum & maximum + frequencies for RX and TX, preventing illegal 'out of band' emissions even in + case of bug in your program. + Other band-specific rules (eg. TX power, channel spacing, dwell time, hopping + rules) are *NOT* enforced by the libloragw library and must be enforced in + your program. + To disable band-specific limits, use the 'full' setting that will allow all + frequencies supported by the radio. + +* CFG_BRD configures board misc parameters and calibration values. + The RSSI reported by the library when a packet is received, and the TX power + specified when is packet is sent, very significantly with the board and + components use around the radios (eg. external PA and LNA, filters, RF + switches, etc). A limited number of specific board designs have been + calibrated by Semtech, if you don't find the board you used, ask Semtech + which available setting will give the most accurate results. If you use + elements such as external filters, long cables and antennas with gain, you + will have to offset their effect in your application. + +### 3.3. Building procedures ### + +For cross-compilation set the CROSS_COMPILE variable in the Makefile with the +correct toolchain name. + +The Makefile in the libloragw directory will parse the library.cfg file and +generate a config.h C header file containing #define options. +Those options enables and disables sections of code in the loragw_xxx.h files +and the *.c source files. + +The library.cfg is also used directly to select the proper set of dynamic +libraries to be linked with. + +### 3.4. Dynamic libraries requirements ### + +Depending on config, SPI module needs LibMPSSE to access the FTDI SPI-over-USB +bridge. Please read install_ftdi.txt for installation instructions. + +The code was tested with version 1.3 of LibMPSSE: +http://libmpsse.googlecode.com/files/libmpsse-1.3.tar.gz +SHA1 Checksum: 1b994a23b118f83144261e3e786c43df74a81cd5 + +### 3.5. Export ### + +Once build, to use that library on another system, you need to export the +following files : + +* libloragw/library.cfg -> root configuration file +* libloragw/libloragw.a -> static library, to be linked with a program +* libloragw/readme.md -> required for license compliance +* libloragw/inc/config.h -> C configuration flags, derived from library.cfg +* libloragw/inc/loragw_*.h -> take only the ones you need (eg. _hal and _gps) + +After statically linking the library to your application, only the license +is required to be kept or copied inside your program documentation. + +4. Hardware dependencies +------------------------ + +### 4.1. Hardware revision ### + +The loragw_reg and loragw_hal are written for a specific version on the Semtech +hardware (IP and/or silicon revision). + +This code has been written for: + +* Semtech SX1301 chip (or FPGA equivalent) +* Semtech SX1257 or SX1255 I/Q transceivers + +The library will not work if there is a mismatch between the hardware version +and the library version. You can use the test program test_loragw_reg to check +if the hardware registers match their software declaration. + +### 4.2. SPI communication ### + +loragw_spi contains 4 SPI functions (read, write, burst read, burst write) that +are platform-dependant. +The functions must be rewritten depending on the SPI bridge you use: + +* SPI master matched to the Linux SPI device driver (provided) +* SPI over USB using FTDI components (provided) +* native SPI using a microcontroller peripheral (not provided) + +Edit library.cfg to chose which SPI physical interface you want to use. + +You can use the test program test_loragw_spi to check with a logic analyser +that the SPI communication is working + +### 4.3. GPS receiver (or other GNSS system) ### + +To use the GPS module of the library, the host must be connected to a GPS +receiver via a serial link (or an equivalent receiver using a different +satellite constellation). +The serial link must appear as a "tty" device in the /dev/ directory, and the +user launching the program must have the proper system rights to read and +write on that device. +Use `chmod a+rw` to allow all users to access that specific tty device, or use +sudo to run all your programs (eg. `sudo ./test_loragw_gps`). + +In the current revision, the library only reads data from the serial port, +expecting to receive NMEA frames that are generally sent by GPS receivers as +soon as they are powered up. + +The GPS receiver **MUST** send RMC NMEA sentences (starting with "$G<any +character>RMC") shortly after sending a PPS pulse on to allow internal +concentrator timestamps to be converted to absolute UTC time. +If the GPS receiver sends a GGA sentence, the gateway 3D position will also be +available. + +The PPS pulse must be sent to the pin 22 of connector CONN400 on the Semtech +FPGA-based nano-concentrator board. Ground is available on pins 2 and 12 of +the same connector. +The pin is loaded by an FPGA internal pull-down, and the signal level coming +in the FPGA must be 3.3V. +Timing is captured on the rising edge of the PPS signal. + +5. Usage +-------- + +### 5.1. Setting the software environment ### + +For a typical application you need to: + +* include loragw_hal.h in your program source +* link to the libloragw.a static library during compilation +* link to the librt library due to loragw_aux dependencies (timing functions) +* link to the libmpsse library if you use a FTDI SPI-over-USB bridge + +For an application that will also access the concentrator configuration +registers directly (eg. for advanced configuration) you also need to: + +* include loragw_reg.h in your program source + +### 5.2. Using the software API ### + +To use the HAL in your application, you must follow some basic rules: + +* configure the radios path and IF+modem path before starting the radio +* the configuration is only transferred to hardware when you call the *start* + function +* you cannot receive packets until one (or +) radio is enabled AND one (or +) + IF+modem part is enabled AND the concentrator is started +* you cannot send packets until one (or +) radio is enabled AND the concentrator + is started +* you must stop the concentrator before changing the configuration + +A typical application flow for using the HAL is the following: + + <configure the radios and IF+modems> + <start the LoRa concentrator> + loop { + <fetch packets that were received by the concentrator> + <process, store and/or forward received packets> + <send packets through the concentrator> + } + <stop the concentrator> + +**/!\ Warning** The lgw_send function is non-blocking and returns while the +LoRa concentrator is still sending the packet, or even before the packet has +started to be transmitted if the packet is triggered on a future event. +While a packet is emitted, no packet can be received (limitation intrinsic to +most radio frequency systems). + +Your application *must* take into account the time it takes to send a packet or +check the status (using lgw_status) before attempting to send another packet. + +Trying to send a packet while the previous packet has not finished being send +will result in the previous packet not being sent or being sent only partially +(resulting in a CRC error in the receiver). + +### 5.3. Debugging mode ### + +To debug your application, it might help to compile the loragw_hal function +with the debug messages activated (set DEBUG_HAL=1 in library.cfg). +It then send a lot of details, including detailed error messages to *stderr*. + +6. License +----------- + +Copyright (c) 2013, SEMTECH S.A. +All rights reserved. + +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are met: + +* Redistributions of source code must retain the above copyright + notice, this list of conditions and the following disclaimer. +* Redistributions in binary form must reproduce the above copyright + notice, this list of conditions and the following disclaimer in the + documentation and/or other materials provided with the distribution. +* Neither the name of the Semtech corporation nor the + names of its contributors may be used to endorse or promote products + derived from this software without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND +ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE +DISCLAIMED. IN NO EVENT SHALL SEMTECH S.A. BE LIABLE FOR ANY +DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES +(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; +LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND +ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS +SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +*EOF*
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