mirror of
https://github.com/markqvist/RNode_Firmware.git
synced 2024-12-25 07:29:41 -05:00
Reworked queue and buffering
This commit is contained in:
parent
417f39d02a
commit
163c6b021f
47
Config.h
47
Config.h
@ -4,18 +4,14 @@
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#define CONFIG_H
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#define MAJ_VERS 0x01
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#define MIN_VERS 0x0D
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#define MIN_VERS 0x0E
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#define MCU_328P 0x90
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#define MCU_1284P 0x91
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#define MODE_HOST 0x11
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#define MODE_TNC 0x12
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#if defined(__AVR_ATmega328P__)
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#define MCU_VARIANT MCU_328P
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#warning "Firmware is being compiled for atmega328p based boards"
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#elif defined(__AVR_ATmega1284P__)
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#if defined(__AVR_ATmega1284P__)
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#define MCU_VARIANT MCU_1284P
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#warning "Firmware is being compiled for atmega1284p based boards"
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#else
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@ -25,22 +21,11 @@
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#define MTU 500
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#define SINGLE_MTU 255
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#define HEADER_L 1
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#define MIN_L 1
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#define CMD_L 4
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// MCU dependent configuration parameters
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#if MCU_VARIANT == MCU_328P
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const int pin_cs = 7;
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const int pin_reset = 6;
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const int pin_dio = 2;
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const int pin_led_rx = 5;
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const int pin_led_tx = 4;
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#define FLOW_CONTROL_ENABLED true
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#define QUEUE_SIZE 0
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#define EEPROM_SIZE 512
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#define EEPROM_OFFSET EEPROM_SIZE-EEPROM_RESERVED
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#endif
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#if MCU_VARIANT == MCU_1284P
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const int pin_cs = 4;
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@ -49,10 +34,9 @@
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const int pin_led_rx = 12;
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const int pin_led_tx = 13;
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#define FLOW_CONTROL_ENABLED true
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#define QUEUE_SIZE 24
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#define QUEUE_BUF_SIZE (QUEUE_SIZE+1)
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#define QUEUE_MEM QUEUE_BUF_SIZE * MTU
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#define CONFIG_UART_BUFFER_SIZE 6750
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#define CONFIG_QUEUE_SIZE 6750
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#define CONFIG_QUEUE_MAX_LENGTH 70
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#define EEPROM_SIZE 4096
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#define EEPROM_OFFSET EEPROM_SIZE-EEPROM_RESERVED
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@ -67,7 +51,6 @@
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// SX1276 RSSI offset to get dBm value from
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// packet RSSI register
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const int rssi_offset = 157;
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const int snr_offset = 128;
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// Default LoRa settings
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int lora_sf = 0;
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@ -91,23 +74,19 @@
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uint8_t last_snr_raw = 0x00;
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size_t read_len = 0;
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uint8_t seq = 0xFF;
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// Incoming packet buffer
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uint8_t pbuf[MTU];
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uint8_t sbuf[MTU];
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// KISS command buffer
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uint8_t cbuf[CMD_L];
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#if QUEUE_SIZE > 0
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uint8_t tbuf[MTU];
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uint8_t qbuf[QUEUE_MEM];
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size_t queued_lengths[QUEUE_BUF_SIZE];
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#endif
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// LoRa transmit buffer
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uint8_t tbuf[MTU];
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uint32_t stat_rx = 0;
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uint32_t stat_tx = 0;
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bool outbound_ready = false;
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size_t queue_head = 0;
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size_t queue_tail = 0;
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bool stat_signal_detected = false;
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bool stat_signal_synced = false;
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bool stat_rx_ongoing = false;
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@ -55,9 +55,6 @@
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size_t frame_len;
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bool IN_FRAME = false;
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bool ESCAPE = false;
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bool SERIAL_READING = false;
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uint8_t command = CMD_UNKNOWN;
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uint32_t last_serial_read = 0;
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uint32_t serial_read_timeout_ms = 60;
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#endif
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@ -2,27 +2,49 @@
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#include <SPI.h>
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#include "Utilities.h"
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FIFOBuffer serialFIFO;
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uint8_t serialBuffer[CONFIG_UART_BUFFER_SIZE];
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FIFOBuffer16 packet_starts;
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size_t packet_starts_buf[CONFIG_QUEUE_MAX_LENGTH+1];
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FIFOBuffer16 packet_lengths;
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size_t packet_lengths_buf[CONFIG_QUEUE_MAX_LENGTH+1];
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uint8_t packet_queue[CONFIG_QUEUE_SIZE];
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volatile uint8_t queue_height = 0;
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volatile size_t queued_bytes = 0;
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volatile size_t queue_cursor = 0;
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volatile size_t current_packet_start = 0;
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void setup() {
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// Seed the PRNG
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randomSeed(analogRead(0));
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// Initialise serial communication
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memset(serialBuffer, 0, sizeof(serialBuffer));
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fifo_init(&serialFIFO, serialBuffer, sizeof(serialBuffer));
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Serial.begin(serial_baudrate);
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while (!Serial);
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serial_timer_init();
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// Configure input and output pins
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pinMode(pin_led_rx, OUTPUT);
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pinMode(pin_led_tx, OUTPUT);
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// Initialise buffers
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memset(pbuf, 0, sizeof(pbuf));
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memset(sbuf, 0, sizeof(sbuf));
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memset(cbuf, 0, sizeof(cbuf));
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#if QUEUE_SIZE > 0
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memset(qbuf, 0, sizeof(qbuf));
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memset(queued_lengths, 0, sizeof(queued_lengths));
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#endif
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memset(packet_queue, 0, sizeof(packet_queue));
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memset(packet_starts_buf, 0, sizeof(packet_starts));
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memset(packet_lengths_buf, 0, sizeof(packet_lengths));
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fifo16_init(&packet_starts, packet_starts_buf, sizeof(packet_starts_buf));
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fifo16_init(&packet_lengths, packet_lengths_buf, sizeof(packet_lengths_buf));
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// Set chip select, reset and interrupt
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// pins for the LoRa module
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@ -188,67 +210,38 @@ void receiveCallback(int packet_size) {
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}
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}
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bool outboundReady() {
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#if QUEUE_SIZE > 0
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if (queue_head != queue_tail) {
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return true;
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} else {
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return false;
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}
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#else
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return outbound_ready;
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#endif
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}
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bool queueFull() {
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size_t new_queue_head = (queue_head+1)%QUEUE_BUF_SIZE;
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if (new_queue_head == queue_tail) {
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return true;
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} else {
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return false;
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}
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return (queue_height < CONFIG_QUEUE_MAX_LENGTH && queued_bytes < CONFIG_QUEUE_SIZE);
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}
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void enqueuePacket(size_t length) {
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size_t new_queue_head = (queue_head+1)%QUEUE_BUF_SIZE;
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if (new_queue_head != queue_tail) {
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queued_lengths[queue_head] = length;
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size_t insert_addr = queue_head * MTU;
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for (int i = 0; i < length; i++) {
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qbuf[insert_addr+i] = sbuf[i];
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volatile bool queue_flushing = false;
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void flushQueue(void) {
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if (!queue_flushing) {
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queue_flushing = true;
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size_t processed = 0;
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for (size_t n = 0; n < queue_height; n++) {
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size_t start = fifo16_pop_locked(&packet_starts);
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size_t length = fifo16_pop_locked(&packet_lengths);
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if (length >= MIN_L) {
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for (size_t i = 0; i < length; i++) {
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size_t pos = (start+i)%CONFIG_QUEUE_SIZE;
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tbuf[i] = packet_queue[pos];
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}
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transmit(length);
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processed++;
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}
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}
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queue_head = new_queue_head;
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if (!queueFull()) {
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kiss_indicate_ready();
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}
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} else {
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kiss_indicate_error(ERROR_QUEUE_FULL);
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}
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queue_height = 0;
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queued_bytes = 0;
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queue_flushing = false;
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kiss_indicate_ready();
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}
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#if QUEUE_SIZE > 0
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void processQueue() {
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size_t fetch_address = queue_tail*MTU;
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size_t fetch_length = queued_lengths[queue_tail];
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for (int i = 0; i < fetch_length; i++) {
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tbuf[i] = qbuf[fetch_address+i];
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qbuf[fetch_address+i] = 0x00;
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}
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queued_lengths[queue_tail] = 0;
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queue_tail = ++queue_tail%QUEUE_BUF_SIZE;
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transmit(fetch_length);
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if (!queueFull()) {
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kiss_indicate_ready();
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}
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}
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#endif
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void transmit(size_t size) {
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if (radio_online) {
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if (!promisc) {
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@ -264,11 +257,7 @@ void transmit(size_t size) {
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LoRa.write(header); written++;
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for (size_t i; i < size; i++) {
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#if QUEUE_SIZE > 0
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LoRa.write(tbuf[i]);
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#else
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LoRa.write(sbuf[i]);
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#endif
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LoRa.write(tbuf[i]);
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written++;
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@ -298,11 +287,7 @@ void transmit(size_t size) {
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LoRa.beginPacket();
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for (size_t i; i < size; i++) {
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#if QUEUE_SIZE > 0
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LoRa.write(tbuf[i]);
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#else
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LoRa.write(sbuf[i]);
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#endif
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LoRa.write(tbuf[i]);
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written++;
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}
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@ -315,26 +300,35 @@ void transmit(size_t size) {
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kiss_indicate_error(ERROR_TXFAILED);
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led_indicate_error(5);
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}
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#if QUEUE_SIZE == 0
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if (FLOW_CONTROL_ENABLED)
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kiss_indicate_ready();
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#endif
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}
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void serialCallback(uint8_t sbyte) {
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if (IN_FRAME && sbyte == FEND && command == CMD_DATA) {
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IN_FRAME = false;
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if (QUEUE_SIZE == 0) {
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if (outbound_ready) {
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kiss_indicate_error(ERROR_QUEUE_FULL);
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} else {
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outbound_ready = true;
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}
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} else {
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enqueuePacket(frame_len);
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if (queue_height < CONFIG_QUEUE_MAX_LENGTH && queued_bytes < CONFIG_QUEUE_SIZE) {
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size_t s = current_packet_start;
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size_t e = queue_cursor-1; if (e == -1) e = CONFIG_QUEUE_SIZE-1;
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size_t l;
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if (s != e) {
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l = (s < e) ? e - s + 1 : CONFIG_QUEUE_SIZE - s + e + 1;
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} else {
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l = 1;
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}
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if (l >= MIN_L) {
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queue_height++;
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fifo16_push_locked(&packet_starts, s);
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fifo16_push_locked(&packet_lengths, l);
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current_packet_start = queue_cursor;
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}
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}
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if (!queueFull()) kiss_indicate_ready();
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} else if (sbyte == FEND) {
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IN_FRAME = true;
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command = CMD_UNKNOWN;
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@ -352,7 +346,11 @@ void serialCallback(uint8_t sbyte) {
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if (sbyte == TFESC) sbyte = FESC;
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ESCAPE = false;
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}
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sbuf[frame_len++] = sbyte;
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if (queue_height < CONFIG_QUEUE_MAX_LENGTH && queued_bytes < CONFIG_QUEUE_SIZE) {
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queued_bytes++;
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packet_queue[queue_cursor++] = sbyte;
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if (queue_cursor == CONFIG_QUEUE_SIZE) queue_cursor = 0;
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}
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}
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} else if (command == CMD_FREQUENCY) {
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if (sbyte == FESC) {
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@ -566,19 +564,20 @@ void validateStatus() {
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void loop() {
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if (radio_online) {
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checkModemStatus();
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if (outboundReady() && !SERIAL_READING) {
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if (queue_height > 0) {
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if (!dcd_waiting) updateModemStatus();
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if (!dcd && !dcd_led) {
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if (dcd_waiting) delay(lora_rx_turnaround_ms);
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updateModemStatus();
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if (!dcd) {
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dcd_waiting = false;
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#if QUEUE_SIZE > 0
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processQueue();
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#else
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outbound_ready = false;
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transmit(frame_len);
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#endif
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flushQueue();
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}
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} else {
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dcd_waiting = true;
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@ -594,14 +593,36 @@ void loop() {
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}
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}
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if (Serial.available()) {
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SERIAL_READING = true;
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char sbyte = Serial.read();
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serial_poll();
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}
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void serial_poll() {
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while (!fifo_isempty_locked(&serialFIFO)) {
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char sbyte = fifo_pop_locked(&serialFIFO);
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serialCallback(sbyte);
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last_serial_read = millis();
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} else {
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if (SERIAL_READING && millis()-last_serial_read >= serial_read_timeout_ms) {
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SERIAL_READING = false;
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}
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}
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void buffer_serial() {
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while (Serial.available()) {
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char c = Serial.read();
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if (!fifo_isfull_locked(&serialFIFO)) {
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fifo_push_locked(&serialFIFO, c);
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}
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}
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}
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void serial_timer_init() {
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TCCR3A = 0;
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TCCR3B = _BV(CS10) |
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_BV(WGM33)|
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_BV(WGM32);
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ICR3 = 23704; // Approximation of 16Mhz / 675
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TIMSK3 = _BV(ICIE3);
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}
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ISR(TIMER3_CAPT_vect) {
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buffer_serial();
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}
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159
Utilities.h
159
Utilities.h
@ -1,4 +1,6 @@
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#include <EEPROM.h>
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#include <stddef.h>
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#include <util/atomic.h>
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#include "LoRa.h"
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#include "ROM.h"
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#include "Config.h"
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@ -468,3 +470,160 @@ void unlock_rom() {
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led_indicate_error(50);
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eeprom_erase();
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}
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typedef struct FIFOBuffer
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{
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unsigned char *begin;
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unsigned char *end;
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unsigned char * volatile head;
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unsigned char * volatile tail;
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} FIFOBuffer;
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inline bool fifo_isempty(const FIFOBuffer *f) {
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return f->head == f->tail;
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}
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inline bool fifo_isfull(const FIFOBuffer *f) {
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return ((f->head == f->begin) && (f->tail == f->end)) || (f->tail == f->head - 1);
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}
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inline void fifo_push(FIFOBuffer *f, unsigned char c) {
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*(f->tail) = c;
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if (f->tail == f->end) {
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f->tail = f->begin;
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} else {
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f->tail++;
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}
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}
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inline unsigned char fifo_pop(FIFOBuffer *f) {
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if(f->head == f->end) {
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f->head = f->begin;
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return *(f->end);
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} else {
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return *(f->head++);
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}
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}
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inline void fifo_flush(FIFOBuffer *f) {
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f->head = f->tail;
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}
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static inline bool fifo_isempty_locked(const FIFOBuffer *f) {
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bool result;
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ATOMIC_BLOCK(ATOMIC_RESTORESTATE) {
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result = fifo_isempty(f);
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}
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return result;
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}
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static inline bool fifo_isfull_locked(const FIFOBuffer *f) {
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bool result;
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ATOMIC_BLOCK(ATOMIC_RESTORESTATE) {
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result = fifo_isfull(f);
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}
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return result;
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}
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static inline void fifo_push_locked(FIFOBuffer *f, unsigned char c) {
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ATOMIC_BLOCK(ATOMIC_RESTORESTATE) {
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fifo_push(f, c);
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}
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}
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static inline unsigned char fifo_pop_locked(FIFOBuffer *f) {
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unsigned char c;
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ATOMIC_BLOCK(ATOMIC_RESTORESTATE) {
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c = fifo_pop(f);
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}
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return c;
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}
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inline void fifo_init(FIFOBuffer *f, unsigned char *buffer, size_t size) {
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f->head = f->tail = f->begin = buffer;
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f->end = buffer + size -1;
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}
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inline size_t fifo_len(FIFOBuffer *f) {
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return f->end - f->begin;
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||||
}
|
||||
|
||||
typedef struct FIFOBuffer16
|
||||
{
|
||||
size_t *begin;
|
||||
size_t *end;
|
||||
size_t * volatile head;
|
||||
size_t * volatile tail;
|
||||
} FIFOBuffer16;
|
||||
|
||||
inline bool fifo16_isempty(const FIFOBuffer16 *f) {
|
||||
return f->head == f->tail;
|
||||
}
|
||||
|
||||
inline bool fifo16_isfull(const FIFOBuffer16 *f) {
|
||||
return ((f->head == f->begin) && (f->tail == f->end)) || (f->tail == f->head - 1);
|
||||
}
|
||||
|
||||
inline void fifo16_push(FIFOBuffer16 *f, size_t c) {
|
||||
*(f->tail) = c;
|
||||
|
||||
if (f->tail == f->end) {
|
||||
f->tail = f->begin;
|
||||
} else {
|
||||
f->tail++;
|
||||
}
|
||||
}
|
||||
|
||||
inline size_t fifo16_pop(FIFOBuffer16 *f) {
|
||||
if(f->head == f->end) {
|
||||
f->head = f->begin;
|
||||
return *(f->end);
|
||||
} else {
|
||||
return *(f->head++);
|
||||
}
|
||||
}
|
||||
|
||||
inline void fifo16_flush(FIFOBuffer16 *f) {
|
||||
f->head = f->tail;
|
||||
}
|
||||
|
||||
static inline bool fifo16_isempty_locked(const FIFOBuffer16 *f) {
|
||||
bool result;
|
||||
ATOMIC_BLOCK(ATOMIC_RESTORESTATE) {
|
||||
result = fifo16_isempty(f);
|
||||
}
|
||||
return result;
|
||||
}
|
||||
|
||||
static inline bool fifo16_isfull_locked(const FIFOBuffer16 *f) {
|
||||
bool result;
|
||||
ATOMIC_BLOCK(ATOMIC_RESTORESTATE) {
|
||||
result = fifo16_isfull(f);
|
||||
}
|
||||
return result;
|
||||
}
|
||||
|
||||
static inline void fifo16_push_locked(FIFOBuffer16 *f, size_t c) {
|
||||
ATOMIC_BLOCK(ATOMIC_RESTORESTATE) {
|
||||
fifo16_push(f, c);
|
||||
}
|
||||
}
|
||||
|
||||
static inline size_t fifo16_pop_locked(FIFOBuffer16 *f) {
|
||||
size_t c;
|
||||
ATOMIC_BLOCK(ATOMIC_RESTORESTATE) {
|
||||
c = fifo16_pop(f);
|
||||
}
|
||||
return c;
|
||||
}
|
||||
|
||||
inline void fifo16_init(FIFOBuffer16 *f, size_t *buffer, size_t size) {
|
||||
f->head = f->tail = f->begin = buffer;
|
||||
f->end = buffer + (size/sizeof(size_t)) - 2;
|
||||
}
|
||||
|
||||
inline size_t fifo16_len(FIFOBuffer16 *f) {
|
||||
return ((f->end - f->begin))/sizeof(size_t);
|
||||
}
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user