update README

This commit is contained in:
Morgan 'ARR\!' Allen 2020-02-23 11:47:08 -08:00
parent 8809b3d142
commit 4af5798765

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@ -4,7 +4,7 @@ Provides SPI driver for SX1276/SX1278 LoRa radio
## Install
Designed to be used as `esp-idf component`. Suggested using as `git submodule`
Designed to be used as an `esp-idf component`. Suggested usage is with `git submodule`
```
git submodule add https://gitlab.com/morganrallen/esp32-lora.git components/esp32-lora/
@ -14,38 +14,63 @@ git submodule update
## Configure
Uses built in KConfig. Run `make menuconfig` and find config under `Component config` -> `LORA32`.
Uses built in KConfig for configuration.
Run `make menuconfig` and find config under `Component config` -> `LORA32`.
Defaults targeted to TTGO LoRa OLED boards.
## Use
This is the most basic usage. Setting up the LoRa instance, setting it's receive handler, running init then sending a message.
```
#include <stdio.h>
#include <string.h>
#include "esp32-lora.h";
lora32_cfg_t lora;
static void handle_lora_receive(uint8_t size) {
char *message = malloc(size+1);
lora32_read_data(&lora, message);
// ensure null termination
message[size] = '\0';
printf("msg: %s\n", message);
}
void app_main() {
lora = lora32_create();
lora.receive = &handle_lora_receive;
lora32_init(&lora);
lora32_send(&lora, "Hello, LoRa", 11);
}
```
## API
### `lora32_cfg_t static lora32_create()`
Creates a new LoRa instance
### `static lora32_cfg_t lora32_create()`
Creates a new LoRa instance.
### `uint8_t lora32_init(lora32_cfg_t *config)`
Initialized LoRa instance. This configures GPIOs, SPI, LoRa radio and receive handlers
Initialized LoRa instance. This configures GPIOs, SPI, LoRa radio and receive handlers.
Returns 1 on success.
### `void lora32_set_coding_rate(lora32_cfg_t *lora, uint8_t d)`
Set `Coding Rate`.
Accepts `5`-`8`.
### `uint8_t lora32_data_available(lora32_cfg_t *lora)`
Indicates if data is presently available.
Returns number of bytes available in FIFO buffer.
### `void lora32_send(lora32_cfg_t *config, uint8_t *data, uint8_t len)`
Transmits data over the LoRa radio.
Transmits data over the LoRa radio. Puts `DIO0` into `TXDONE` mode.
### `void lora32_set_spreadfactor(lora32_cfg_t *lora, uint8_t factor)`
Sets LoRa Spread Factor.
@ -53,4 +78,40 @@ Sets LoRa Spread Factor.
Accepts `6`-`12`.
### `void lora32_dump_regs(lora32_cfg_t *lora)`
Dumps all registers from SX1276
Dumps all registers from SX1276.
### `void lora32_read_data(lora32_cfg_t *lora, uint8_t *data)`
Reads data out of FIFO buffer. This would typically be called after the callback `received` is triggered.
### `void lora32_enable_continuous_rx(lora32_cfg_t *lora)`
Enables continuous receive mode. If a receive callback has been setup, it will be trigger
on any incoming data until either an `OP_MODE` or `DIO0` mode are change.
### `void lora32_enable_single_rx(lora32_cfg_t *lora)`
* **NOTE** This requires `DIO1` for complete functionality.
* **NOTE** Implenentation incomplete.
Enables single receive mode. Will either trigger `RXDONE` on `DIO0` or `RXTIMEOUT` on `DIO1`
### `void lora32_enable_cad(lora32_cfg_t *lora)`
Enables Channel Activity Detection. Will trigger callback `cad_done` with `bool detected` on completion.
If activity was detected, it will also trigger `cad_detected`
## Callbacks
`lora32_cfg_t` provides several callbacks based on `DIO0` interrupts. Most functionality is provided through
these, favoring async operations over syncronous polling.
### `lora32_cfg_t->receive(uint8_t size)`
Triggered from `RXCONTINUOUS` and `RXSINGLE` modes. Provides the number of bytes available. Should be followed
up with a call to `lora32_read_data` to retrieve data from FIFO buffer.
### `lora32_cfg_t->tx_done()`
Triggers after call to `lora32_send` completes, as long as `DIO0` mode has not been changed.
### `lora32_cfg_t->cad_done(bool detected)`
Triggers after call to `lora32_enable_cad` completes (ie times out) or channel activity is detected.
`bool detected` will reflect these two states.
### `lora32_cfg_t->cad_detected()`
Triggers after call to `lora32_enable_cad` successfully detects channel activity.