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https://bitbucket.org/librepilot/librepilot.git
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942 lines
46 KiB
C
942 lines
46 KiB
C
/**
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******************************************************************************
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* @addtogroup OpenPilotModules OpenPilot Modules
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* @{
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* @addtogroup GSPModule GPS Module
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* @brief Support code for UBX AutoConfig
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* @{
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*
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* @file ubx_autoconfig.c
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* @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2014.
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* @brief Support code for UBX AutoConfig
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* @see The GNU Public License (GPL) Version 3
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*
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*****************************************************************************/
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/*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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* for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program; if not, write to the Free Software Foundation, Inc.,
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* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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#include <openpilot.h>
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#include "hwsettings.h"
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#include "inc/ubx_autoconfig.h"
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#include <pios_mem.h>
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// private type definitions
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typedef enum {
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INIT_STEP_DISABLED = 0,
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INIT_STEP_START,
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INIT_STEP_RESET_GPS,
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INIT_STEP_REVO_9600_BAUD,
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INIT_STEP_GPS_BAUD,
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INIT_STEP_REVO_BAUD,
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INIT_STEP_ENABLE_SENTENCES,
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INIT_STEP_ENABLE_SENTENCES_WAIT_ACK,
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INIT_STEP_CONFIGURE,
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INIT_STEP_CONFIGURE_WAIT_ACK,
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INIT_STEP_SAVE,
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INIT_STEP_SAVE_WAIT_ACK,
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INIT_STEP_DONE,
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INIT_STEP_ERROR
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} initSteps_t;
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typedef struct {
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initSteps_t currentStep; // Current configuration "fsm" status
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initSteps_t currentStepSave; // Current configuration "fsm" status
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uint32_t lastStepTimestampRaw; // timestamp of last operation
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uint32_t lastConnectedRaw; // timestamp of last time gps was connected
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struct {
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UBXSentPacket_t working_packet; // outbound "buffer"
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// bufferPaddingForPiosBugAt2400Baud must exist for baud rate change to work at 2400 or 4800
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// failure mode otherwise:
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// - send message with baud rate change
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// - wait 1 second (even at 2400, the baud rate change command should clear even an initially full 31 byte PIOS buffer much more quickly)
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// - change Revo port baud rate
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// sometimes fails (much worse for lowest baud rates)
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uint8_t bufferPaddingForPiosBugAt2400Baud[2]; // must be at least 2 for 2400 to work, probably 1 for 4800 and 0 for 9600+
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} __attribute__((packed));
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volatile ubx_autoconfig_settings_t currentSettings;
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int8_t lastConfigSent; // index of last configuration string sent
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struct UBX_ACK_ACK requiredAck; // Class and id of the message we are waiting for an ACK from GPS
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uint8_t retryCount;
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} status_t;
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ubx_cfg_msg_t msg_config_ubx6[] = {
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// messages to disable
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_CLOCK, .rate = 0 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_POSECEF, .rate = 0 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_SBAS, .rate = 0 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_TIMEGPS, .rate = 0 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_VELECEF, .rate = 0 },
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{ .msgClass = UBX_CLASS_MON, .msgID = UBX_ID_MON_HW, .rate = 0 },
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{ .msgClass = UBX_CLASS_MON, .msgID = UBX_ID_MON_HW2, .rate = 0 },
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{ .msgClass = UBX_CLASS_MON, .msgID = UBX_ID_MON_IO, .rate = 0 },
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{ .msgClass = UBX_CLASS_MON, .msgID = UBX_ID_MON_MSGPP, .rate = 0 },
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{ .msgClass = UBX_CLASS_MON, .msgID = UBX_ID_MON_RXBUFF, .rate = 0 },
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{ .msgClass = UBX_CLASS_MON, .msgID = UBX_ID_MON_RXR, .rate = 0 },
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{ .msgClass = UBX_CLASS_MON, .msgID = UBX_ID_MON_TXBUF, .rate = 0 },
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{ .msgClass = UBX_CLASS_RXM, .msgID = UBX_ID_RXM_SVSI, .rate = 0 },
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// message to enable
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_POSLLH, .rate = 1 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_DOP, .rate = 1 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_SOL, .rate = 1 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_STATUS, .rate = 1 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_VELNED, .rate = 1 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_TIMEUTC, .rate = 1 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_SVINFO, .rate = 10 },
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};
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ubx_cfg_msg_t msg_config_ubx7[] = {
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// messages to disable
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_AOPSTATUS, .rate = 0 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_CLOCK, .rate = 0 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_DGPS, .rate = 0 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_POSECEF, .rate = 0 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_SBAS, .rate = 0 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_TIMEGPS, .rate = 0 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_VELECEF, .rate = 0 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_SOL, .rate = 0 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_STATUS, .rate = 0 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_VELNED, .rate = 0 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_TIMEUTC, .rate = 0 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_POSLLH, .rate = 0 },
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{ .msgClass = UBX_CLASS_MON, .msgID = UBX_ID_MON_HW, .rate = 0 },
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{ .msgClass = UBX_CLASS_MON, .msgID = UBX_ID_MON_HW2, .rate = 0 },
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{ .msgClass = UBX_CLASS_MON, .msgID = UBX_ID_MON_IO, .rate = 0 },
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{ .msgClass = UBX_CLASS_MON, .msgID = UBX_ID_MON_MSGPP, .rate = 0 },
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{ .msgClass = UBX_CLASS_MON, .msgID = UBX_ID_MON_RXBUFF, .rate = 0 },
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{ .msgClass = UBX_CLASS_MON, .msgID = UBX_ID_MON_RXR, .rate = 0 },
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{ .msgClass = UBX_CLASS_MON, .msgID = UBX_ID_MON_TXBUF, .rate = 0 },
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{ .msgClass = UBX_CLASS_RXM, .msgID = UBX_ID_RXM_SVSI, .rate = 0 },
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// message to enable
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_PVT, .rate = 1 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_DOP, .rate = 1 },
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{ .msgClass = UBX_CLASS_NAV, .msgID = UBX_ID_NAV_SVINFO, .rate = 10 },
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};
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// private defines
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#define LAST_CONFIG_SENT_START (-1)
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#define LAST_CONFIG_SENT_COMPLETED (-2)
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// always reset the stored GPS configuration, even when doing autoconfig.nostore
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// that is required to do a 100% correct configuration
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// but is unexpected because it changes the stored configuration when doing autoconfig.nostore
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// note that a reset is always done with autoconfig.store
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// #define ALWAYS_RESET
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// private variables
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// enable the autoconfiguration system
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static volatile bool enabled = false;
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static volatile bool current_step_touched = false;
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// both the pointer and what it points to are volatile. Yuk.
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static volatile status_t *volatile status = 0;
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static uint8_t hwsettings_baud;
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static void append_checksum(UBXSentPacket_t *packet)
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{
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uint8_t i;
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uint8_t ck_a = 0;
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uint8_t ck_b = 0;
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uint16_t len = packet->message.header.len + sizeof(UBXSentHeader_t);
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for (i = 2; i < len; i++) {
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ck_a += packet->buffer[i];
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ck_b += ck_a;
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}
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packet->buffer[len] = ck_a;
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packet->buffer[len + 1] = ck_b;
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}
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/**
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* prepare a packet to be sent, fill the header and appends the checksum.
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* return the total packet lenght comprising header and checksum
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*/
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static uint16_t prepare_packet(UBXSentPacket_t *packet, uint8_t classID, uint8_t messageID, uint16_t len)
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{
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memset((uint8_t *)status->working_packet.buffer + len + sizeof(UBXSentHeader_t) + 2, 0, sizeof(status->bufferPaddingForPiosBugAt2400Baud));
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packet->message.header.prolog[0] = UBX_SYNC1;
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packet->message.header.prolog[1] = UBX_SYNC2;
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packet->message.header.class = classID;
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packet->message.header.id = messageID;
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packet->message.header.len = len;
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append_checksum(packet);
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status->requiredAck.clsID = classID;
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status->requiredAck.msgID = messageID;
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return len + sizeof(UBXSentHeader_t) + 2 + sizeof(status->bufferPaddingForPiosBugAt2400Baud); // payload + header + checksum + extra bytes
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}
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static void build_request(UBXSentPacket_t *packet, uint8_t classID, uint8_t messageID, uint16_t *bytes_to_send)
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{
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*bytes_to_send = prepare_packet(packet, classID, messageID, 0);
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}
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static void set_current_step_if_untouched(initSteps_t new_steps)
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{
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// assume this one byte initSteps_t is atomic
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// take care of some but not all concurrency issues
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if (!current_step_touched) {
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status->currentStep = new_steps;
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}
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if (current_step_touched) {
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status->currentStep = status->currentStepSave;
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}
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}
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void ubx_reset_sensor_type()
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{
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ubxHwVersion = -1;
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sensorType = GPSPOSITIONSENSOR_SENSORTYPE_UNKNOWN;
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GPSPositionSensorSensorTypeSet((uint8_t *)&sensorType);
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}
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static void config_reset(uint16_t *bytes_to_send)
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{
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memset((uint8_t *)status->working_packet.buffer, 0, sizeof(UBXSentHeader_t) + sizeof(ubx_cfg_cfg_t));
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// mask LSB=ioPort|msgConf|infMsg|navConf|rxmConf|||||rinvConf|antConf|....|= MSB
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// ioPort=1, msgConf=2, infMsg=4, navConf=8, tpConf=0x10, sfdrConf=0x100, rinvConf=0x200, antConf=0x400
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// first: reset (permanent settings to default) all but rinv = e.g. owner name
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status->working_packet.message.payload.cfg_cfg.clearMask = UBX_CFG_CFG_OP_RESET_SETTINGS;
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// then: don't store any current settings to permanent
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status->working_packet.message.payload.cfg_cfg.saveMask = UBX_CFG_CFG_SETTINGS_NONE;
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// lastly: load (immediately start to use) all but rinv = e.g. owner name
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status->working_packet.message.payload.cfg_cfg.loadMask = UBX_CFG_CFG_OP_RESET_SETTINGS;
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// all devices
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status->working_packet.message.payload.cfg_cfg.deviceMask = UBX_CFG_CFG_DEVICE_ALL;
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*bytes_to_send = prepare_packet((UBXSentPacket_t *)&status->working_packet, UBX_CLASS_CFG, UBX_ID_CFG_CFG, sizeof(ubx_cfg_cfg_t));
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}
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// set the GPS baud rate to the user specified baud rate
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// because we may have started up with 9600 baud (for a GPS with no permanent settings)
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static void config_gps_baud(uint16_t *bytes_to_send)
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{
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memset((uint8_t *)status->working_packet.buffer, 0, sizeof(UBXSentHeader_t) + sizeof(ubx_cfg_prt_t));
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status->working_packet.message.payload.cfg_prt.mode = UBX_CFG_PRT_MODE_DEFAULT; // 8databits, 1stopbit, noparity, and non-zero reserved
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status->working_packet.message.payload.cfg_prt.portID = 1; // 1 = UART1, 2 = UART2
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status->working_packet.message.payload.cfg_prt.inProtoMask = 1; // 1 = UBX only (bit 0)
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status->working_packet.message.payload.cfg_prt.outProtoMask = 1; // 1 = UBX only (bit 0)
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// Ask GPS to change it's speed
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switch (hwsettings_baud) {
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case HWSETTINGS_GPSSPEED_2400:
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status->working_packet.message.payload.cfg_prt.baudRate = 2400;
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break;
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case HWSETTINGS_GPSSPEED_4800:
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status->working_packet.message.payload.cfg_prt.baudRate = 4800;
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break;
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case HWSETTINGS_GPSSPEED_9600:
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status->working_packet.message.payload.cfg_prt.baudRate = 9600;
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break;
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case HWSETTINGS_GPSSPEED_19200:
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status->working_packet.message.payload.cfg_prt.baudRate = 19200;
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break;
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case HWSETTINGS_GPSSPEED_38400:
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status->working_packet.message.payload.cfg_prt.baudRate = 38400;
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break;
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case HWSETTINGS_GPSSPEED_57600:
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status->working_packet.message.payload.cfg_prt.baudRate = 57600;
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break;
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case HWSETTINGS_GPSSPEED_115200:
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status->working_packet.message.payload.cfg_prt.baudRate = 115200;
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break;
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case HWSETTINGS_GPSSPEED_230400:
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status->working_packet.message.payload.cfg_prt.baudRate = 230400;
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break;
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}
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*bytes_to_send = prepare_packet((UBXSentPacket_t *)&status->working_packet, UBX_CLASS_CFG, UBX_ID_CFG_PRT, sizeof(ubx_cfg_prt_t));
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}
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// having already set the GPS's baud rate with a serial command, set the local Revo port baud rate
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static void config_baud(uint8_t baud)
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{
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// Set Revo port hwsettings_baud
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switch (baud) {
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case HWSETTINGS_GPSSPEED_2400:
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PIOS_COM_ChangeBaud(PIOS_COM_GPS, 2400);
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break;
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case HWSETTINGS_GPSSPEED_4800:
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PIOS_COM_ChangeBaud(PIOS_COM_GPS, 4800);
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break;
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case HWSETTINGS_GPSSPEED_9600:
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PIOS_COM_ChangeBaud(PIOS_COM_GPS, 9600);
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break;
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case HWSETTINGS_GPSSPEED_19200:
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PIOS_COM_ChangeBaud(PIOS_COM_GPS, 19200);
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break;
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case HWSETTINGS_GPSSPEED_38400:
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PIOS_COM_ChangeBaud(PIOS_COM_GPS, 38400);
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break;
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case HWSETTINGS_GPSSPEED_57600:
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PIOS_COM_ChangeBaud(PIOS_COM_GPS, 57600);
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break;
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case HWSETTINGS_GPSSPEED_115200:
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PIOS_COM_ChangeBaud(PIOS_COM_GPS, 115200);
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break;
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case HWSETTINGS_GPSSPEED_230400:
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PIOS_COM_ChangeBaud(PIOS_COM_GPS, 230400);
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break;
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}
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}
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static void config_rate(uint16_t *bytes_to_send)
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{
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memset((uint8_t *)status->working_packet.buffer, 0, sizeof(UBXSentHeader_t) + sizeof(ubx_cfg_rate_t));
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// if rate is less than 1 uses the highest rate for current hardware
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uint16_t rate = status->currentSettings.navRate > 0 ? status->currentSettings.navRate : 99;
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if (ubxHwVersion < UBX_HW_VERSION_7 && rate > UBX_MAX_RATE) {
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rate = UBX_MAX_RATE;
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} else if (ubxHwVersion < UBX_HW_VERSION_8 && rate > UBX_MAX_RATE_VER7) {
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rate = UBX_MAX_RATE_VER7;
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} else if (ubxHwVersion >= UBX_HW_VERSION_8 && rate > UBX_MAX_RATE_VER8) {
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rate = UBX_MAX_RATE_VER8;
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}
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uint16_t period = 1000 / rate;
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status->working_packet.message.payload.cfg_rate.measRate = period;
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status->working_packet.message.payload.cfg_rate.navRate = 1; // must be set to 1
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status->working_packet.message.payload.cfg_rate.timeRef = 1; // 0 = UTC Time, 1 = GPS Time
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*bytes_to_send = prepare_packet((UBXSentPacket_t *)&status->working_packet, UBX_CLASS_CFG, UBX_ID_CFG_RATE, sizeof(ubx_cfg_rate_t));
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}
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static void config_nav(uint16_t *bytes_to_send)
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{
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memset((uint8_t *)status->working_packet.buffer, 0, sizeof(UBXSentHeader_t) + sizeof(ubx_cfg_nav5_t));
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status->working_packet.message.payload.cfg_nav5.dynModel = status->currentSettings.dynamicModel;
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status->working_packet.message.payload.cfg_nav5.fixMode = 2; // 1=2D only, 2=3D only, 3=Auto 2D/3D
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// mask LSB=dyn|minEl|posFixMode|drLim|posMask|statisticHoldMask|dgpsMask|......|reservedBit0 = MSB
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status->working_packet.message.payload.cfg_nav5.mask = 0x01 + 0x04; // Dyn Model | posFixMode configuration
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*bytes_to_send = prepare_packet((UBXSentPacket_t *)&status->working_packet, UBX_CLASS_CFG, UBX_ID_CFG_NAV5, sizeof(ubx_cfg_nav5_t));
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}
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static void config_sbas(uint16_t *bytes_to_send)
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{
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memset((uint8_t *)status->working_packet.buffer, 0, sizeof(UBXSentHeader_t) + sizeof(ubx_cfg_sbas_t));
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status->working_packet.message.payload.cfg_sbas.maxSBAS =
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status->currentSettings.SBASChannelsUsed < 4 ? status->currentSettings.SBASChannelsUsed : 3;
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status->working_packet.message.payload.cfg_sbas.usage =
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(status->currentSettings.SBASCorrection ? UBX_CFG_SBAS_USAGE_DIFFCORR : 0) |
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(status->currentSettings.SBASIntegrity ? UBX_CFG_SBAS_USAGE_INTEGRITY : 0) |
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(status->currentSettings.SBASRanging ? UBX_CFG_SBAS_USAGE_RANGE : 0);
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// If sbas is used for anything then set mode as enabled
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status->working_packet.message.payload.cfg_sbas.mode =
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status->working_packet.message.payload.cfg_sbas.usage != 0 ? UBX_CFG_SBAS_MODE_ENABLED : 0;
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status->working_packet.message.payload.cfg_sbas.scanmode1 =
|
|
status->currentSettings.SBASSats == UBX_SBAS_SATS_WAAS ? UBX_CFG_SBAS_SCANMODE1_WAAS :
|
|
status->currentSettings.SBASSats == UBX_SBAS_SATS_EGNOS ? UBX_CFG_SBAS_SCANMODE1_EGNOS :
|
|
status->currentSettings.SBASSats == UBX_SBAS_SATS_MSAS ? UBX_CFG_SBAS_SCANMODE1_MSAS :
|
|
status->currentSettings.SBASSats == UBX_SBAS_SATS_GAGAN ? UBX_CFG_SBAS_SCANMODE1_GAGAN :
|
|
status->currentSettings.SBASSats == UBX_SBAS_SATS_SDCM ? UBX_CFG_SBAS_SCANMODE1_SDCM : UBX_SBAS_SATS_AUTOSCAN;
|
|
status->working_packet.message.payload.cfg_sbas.scanmode2 =
|
|
UBX_CFG_SBAS_SCANMODE2;
|
|
|
|
*bytes_to_send = prepare_packet((UBXSentPacket_t *)&status->working_packet, UBX_CLASS_CFG, UBX_ID_CFG_SBAS, sizeof(ubx_cfg_sbas_t));
|
|
}
|
|
|
|
|
|
static void config_gnss(uint16_t *bytes_to_send)
|
|
{
|
|
memset((uint8_t *)status->working_packet.buffer, 0, sizeof(UBXSentHeader_t) + sizeof(ubx_cfg_gnss_t));
|
|
status->working_packet.message.payload.cfg_gnss.numConfigBlocks = UBX_GNSS_ID_MAX;
|
|
status->working_packet.message.payload.cfg_gnss.numTrkChHw = (ubxHwVersion > UBX_HW_VERSION_7) ? UBX_CFG_GNSS_NUMCH_VER8 : UBX_CFG_GNSS_NUMCH_VER7;
|
|
status->working_packet.message.payload.cfg_gnss.numTrkChUse = status->working_packet.message.payload.cfg_gnss.numTrkChHw;
|
|
|
|
for (int32_t i = 0; i < UBX_GNSS_ID_MAX; i++) {
|
|
status->working_packet.message.payload.cfg_gnss.cfgBlocks[i].gnssId = i;
|
|
switch (i) {
|
|
case UBX_GNSS_ID_GPS:
|
|
if (status->currentSettings.enableGPS) {
|
|
status->working_packet.message.payload.cfg_gnss.cfgBlocks[i].flags = UBX_CFG_GNSS_FLAGS_ENABLED | UBX_CFG_GNSS_FLAGS_GPS_L1CA;
|
|
status->working_packet.message.payload.cfg_gnss.cfgBlocks[i].maxTrkCh = 16;
|
|
status->working_packet.message.payload.cfg_gnss.cfgBlocks[i].resTrkCh = 8;
|
|
}
|
|
break;
|
|
case UBX_GNSS_ID_QZSS:
|
|
if (status->currentSettings.enableGPS) {
|
|
status->working_packet.message.payload.cfg_gnss.cfgBlocks[i].flags = UBX_CFG_GNSS_FLAGS_ENABLED | UBX_CFG_GNSS_FLAGS_QZSS_L1CA;
|
|
status->working_packet.message.payload.cfg_gnss.cfgBlocks[i].maxTrkCh = 3;
|
|
status->working_packet.message.payload.cfg_gnss.cfgBlocks[i].resTrkCh = 0;
|
|
}
|
|
break;
|
|
case UBX_GNSS_ID_SBAS:
|
|
if (status->currentSettings.SBASCorrection || status->currentSettings.SBASIntegrity || status->currentSettings.SBASRanging) {
|
|
status->working_packet.message.payload.cfg_gnss.cfgBlocks[i].flags = UBX_CFG_GNSS_FLAGS_ENABLED | UBX_CFG_GNSS_FLAGS_SBAS_L1CA;
|
|
status->working_packet.message.payload.cfg_gnss.cfgBlocks[i].maxTrkCh = status->currentSettings.SBASChannelsUsed < 4 ? status->currentSettings.SBASChannelsUsed : 3;
|
|
status->working_packet.message.payload.cfg_gnss.cfgBlocks[i].resTrkCh = 1;
|
|
}
|
|
break;
|
|
case UBX_GNSS_ID_GLONASS:
|
|
if (status->currentSettings.enableGLONASS) {
|
|
status->working_packet.message.payload.cfg_gnss.cfgBlocks[i].flags = UBX_CFG_GNSS_FLAGS_ENABLED | UBX_CFG_GNSS_FLAGS_GLONASS_L1OF;
|
|
status->working_packet.message.payload.cfg_gnss.cfgBlocks[i].maxTrkCh = 14;
|
|
status->working_packet.message.payload.cfg_gnss.cfgBlocks[i].resTrkCh = 8;
|
|
}
|
|
break;
|
|
case UBX_GNSS_ID_BEIDOU:
|
|
if (status->currentSettings.enableBeiDou) {
|
|
status->working_packet.message.payload.cfg_gnss.cfgBlocks[i].flags = UBX_CFG_GNSS_FLAGS_ENABLED | UBX_CFG_GNSS_FLAGS_BEIDOU_B1I;
|
|
status->working_packet.message.payload.cfg_gnss.cfgBlocks[i].maxTrkCh = 14;
|
|
status->working_packet.message.payload.cfg_gnss.cfgBlocks[i].resTrkCh = 8;
|
|
}
|
|
break;
|
|
default:
|
|
break;
|
|
}
|
|
}
|
|
|
|
*bytes_to_send = prepare_packet((UBXSentPacket_t *)&status->working_packet, UBX_CLASS_CFG, UBX_ID_CFG_GNSS, sizeof(ubx_cfg_gnss_t));
|
|
}
|
|
|
|
|
|
static void config_save(uint16_t *bytes_to_send)
|
|
{
|
|
memset((uint8_t *)status->working_packet.buffer, 0, sizeof(UBXSentHeader_t) + sizeof(ubx_cfg_cfg_t));
|
|
// mask LSB=ioPort|msgConf|infMsg|navConf|rxmConf|||||rinvConf|antConf|....|= MSB
|
|
// ioPort=1, msgConf=2, infMsg=4, navConf=8, tpConf=0x10, sfdrConf=0x100, rinvConf=0x200, antConf=0x400
|
|
status->working_packet.message.payload.cfg_cfg.saveMask = UBX_CFG_CFG_OP_STORE_SETTINGS; // a list of settings we just set
|
|
status->working_packet.message.payload.cfg_cfg.clearMask = UBX_CFG_CFG_OP_CLEAR_SETTINGS; // everything else gets factory default
|
|
status->working_packet.message.payload.cfg_cfg.deviceMask = UBX_CFG_CFG_DEVICE_ALL;
|
|
|
|
*bytes_to_send = prepare_packet((UBXSentPacket_t *)&status->working_packet, UBX_CLASS_CFG, UBX_ID_CFG_CFG, sizeof(ubx_cfg_cfg_t));
|
|
}
|
|
|
|
|
|
static void configure(uint16_t *bytes_to_send)
|
|
{
|
|
switch (status->lastConfigSent) {
|
|
case LAST_CONFIG_SENT_START:
|
|
// increase message rates to 5 fixes per second
|
|
config_rate(bytes_to_send);
|
|
break;
|
|
|
|
case LAST_CONFIG_SENT_START + 1:
|
|
config_nav(bytes_to_send);
|
|
break;
|
|
|
|
case LAST_CONFIG_SENT_START + 2:
|
|
if (status->currentSettings.enableGLONASS || status->currentSettings.enableGPS) {
|
|
config_gnss(bytes_to_send);
|
|
break;
|
|
} else {
|
|
// Skip and fall through to next step
|
|
status->lastConfigSent++;
|
|
}
|
|
// in the else case we must fall through because we must send something each time because successful send is tested externally
|
|
|
|
case LAST_CONFIG_SENT_START + 3:
|
|
config_sbas(bytes_to_send);
|
|
break;
|
|
|
|
default:
|
|
status->lastConfigSent = LAST_CONFIG_SENT_COMPLETED;
|
|
break;
|
|
}
|
|
}
|
|
|
|
|
|
static void enable_sentences(__attribute__((unused)) uint16_t *bytes_to_send)
|
|
{
|
|
int8_t msg = status->lastConfigSent + 1;
|
|
uint8_t msg_count = (ubxHwVersion >= UBX_HW_VERSION_7) ?
|
|
NELEMENTS(msg_config_ubx7) : NELEMENTS(msg_config_ubx6);
|
|
ubx_cfg_msg_t *msg_config = (ubxHwVersion >= UBX_HW_VERSION_7) ?
|
|
&msg_config_ubx7[0] : &msg_config_ubx6[0];
|
|
|
|
if (msg >= 0 && msg < msg_count) {
|
|
status->working_packet.message.payload.cfg_msg = msg_config[msg];
|
|
*bytes_to_send = prepare_packet((UBXSentPacket_t *)&status->working_packet, UBX_CLASS_CFG, UBX_ID_CFG_MSG, sizeof(ubx_cfg_msg_t));
|
|
} else {
|
|
status->lastConfigSent = LAST_CONFIG_SENT_COMPLETED;
|
|
}
|
|
}
|
|
|
|
|
|
// End User Documentation
|
|
|
|
// There are two baud rates of interest
|
|
// The baud rate the GPS is talking at
|
|
// The baud rate Revo is talking at
|
|
// These two must match for the GPS to work
|
|
// You only have direct control of the Revo baud rate
|
|
// The two baud rates must be the same for the Revo to send a command to the GPS
|
|
// to tell the GPS to change it's baud rate
|
|
// So you start out by changing Revo's baud rate to match the GPS's
|
|
// and then enable UbxAutoConfig to tell Revo to change the GPS baud every time, just before it changes the Revo baud
|
|
// That is the basis of these instructions
|
|
|
|
// There are microprocessors and they each have internal settings
|
|
// Revo
|
|
// GPS
|
|
// and each of these settings can be temporary or permanent
|
|
|
|
// To change a Revo setting
|
|
// Use the System tab in the GCS for all the following
|
|
// Example: in Settings->GPSSettings click on the VALUE for UbxAutoConfig and change it to Disabled
|
|
// Click on UbxAutoConfig itself and the line will turn green and blue
|
|
// To change this setting permanently, press the red up arrow (Save) at the top of the screen
|
|
// Permanently means that it uses this setting, even if you reboot Revo, e.g. power off and on
|
|
// To change this setting temporarily, press the green up arrow (Send) at the top of the screen
|
|
// Temporarily means that it overrides the permanent setting, but it goes back to the permanent setting when you reboot Revo, e.g. power off and on
|
|
|
|
// To change an internal GPS setting you use the OP GCS System tab to tell Revo to make the GPS changes
|
|
// This only works correctly after you have matching baud rates so Revo and GPS can talk together
|
|
// "Settings->GPSSettings->UbxAutoConfig = Configure" sets the internal GPS setting temporarily
|
|
// "Settings->GPSSettings->UbxAutoConfig = ConfigureAndStore" sets the internal GPS setting permanently
|
|
|
|
// You want to wind up with a set of permanent settings that work together
|
|
// There are two different sets of permanent settings that work together
|
|
// GPS at 9600 baud and factory defaults
|
|
// Revo configured to start out at 9600 baud, but then completely configure the GPS and switch both to 57600 baud
|
|
// (takes 6 seconds at boot up while you are waiting for it to acquire satellites anyway)
|
|
// This is the preferred way so that if we change the settings in the future, the new release will automatically use the correct settings
|
|
// GPS at 57600 baud with all the settings for the current release stored in the GPS
|
|
// Revo configured to disable UbxAutoConfig since all the GPS settings are permanently stored correctly
|
|
// May require reconfiguring in a future release
|
|
|
|
// Changable settings of interest
|
|
// AutoConfig mode
|
|
// Settings->GPSSettings->UbxAutoConfig (Disabled, Configure, ConfigureAndStore, default=Configure)
|
|
// Disabled means that changes to the GPS baud setting only affect the Revo port
|
|
// It doesn't try to change the GPS's internal baud rate setting
|
|
// Configure means change the GPS's internal baud setting temporarily (GPS settings revert to the permanent values when GPS is powered off/on)
|
|
// ConfigureAndStore means change the GPS's internal baud setting permanently (even after the GPS is powered off/on)
|
|
// GPS baud rate
|
|
// Settings->HwSettings->GPSSpeed
|
|
// If the baud rates are the same and an AutoConfig mode is enabled this will change both the GPS baud rate and the Revo baud rate
|
|
// If the baud rates are not the same and an AutoConfig mode is enabled it will fail
|
|
// If AutoConfig mode is disabled this will only change the Revo baud rate
|
|
|
|
// View only settings of interest
|
|
// Detected GPS type
|
|
// Data Objects -> GPSPositionSensor -> SensorType (Unknown, NMEA, UBX, UBX7, UBX8)
|
|
// When it says something other than Unknown, the GPS and Revo baud rates are synced and talking
|
|
// Real time progress of the GPS detection process
|
|
// Data Objects -> GPSPositionSensor -> AutoConfigStatus (DISABLED, RUNNING, DONE, ERROR)
|
|
|
|
// Syncing the baud rates means that the GPS's internal baud rate setting is the same as the Revo port setting
|
|
// This is necessary for the GPS to work with Revo
|
|
// To sync to and find out an unknown GPS baud rate (or sync to and use a known GPS baud rate)
|
|
// Temporarily change the AutoConfig mode to Disabled
|
|
// Temporarily change the GPS baud rate to a value you think it might be (or go up the list)
|
|
// See if that baud rate is correct (Data Objects->GPSPositionSensor->SensorType will be something besides Unknown)
|
|
// Repeat, changing the GPS baud rate, until found
|
|
|
|
// Some very important facts:
|
|
// For 9600 baud or lower, the autoconfig will configure it to factory default settings
|
|
// For 19200 baud or higher, the autoconfig will configure it to OP required settings
|
|
// If autoconfig is enabled permanently in Revo, it will assume that the GPS is configured to power up at 9600 baud
|
|
// 57600 baud is recommended for the current release
|
|
// That can be achieved either by
|
|
// autoconfiging the GPS from a permanent 9600 baud (and factory settings) to a temporary 57600 (with OP settings) on each power up
|
|
// or by configuring the GPS with a permanent 57600 (with OP settings) and then permanently disabling autoconfig
|
|
// Some previous releases used 38400 and had some other settings differences
|
|
|
|
// The user should either:
|
|
// Permanently configure their GPS to 9600 baud factory settings and tell the Revo configuration to load volatile settings at each startup by:
|
|
// (Recommended method because new versions could require new settings and this handles future changes automatically)
|
|
// Syncing the baud rates
|
|
// Setting it to autoconfig.nostore and waiting for it to complete
|
|
// Setting HwSettings.GPSSpeed to 9600 and waiting for it to complete
|
|
// Setting it to autoconfig.store and waiting for it to complete (this tells the GPS to store the 9600 permanently)
|
|
// Permanently setting it to autoconfig.nostore and waiting for it to complete
|
|
// Permanently setting HwSettings.GPSSpeed to 57600 and waiting for it to complete
|
|
// Permanently configure their GPS to 57600 baud, including OpenPilot settings and telling the Revo configuration to just set the baud to 57600 at each startup by:
|
|
// (Less recommended method because new versions could require new settings so you would have to do this again)
|
|
// Syncing the baud rates
|
|
// Setting it to autoconfig.nostore and waiting for it to complete
|
|
// Permanently setting HwSettings.GPSSpeed to 57600 and waiting for it to complete
|
|
// Setting it to autoconfig.store
|
|
// Permanently setting it to autoconfig.disabled
|
|
|
|
// The algorithm is:
|
|
// If autoconfig is enabled at all
|
|
// It will assume that the GPS boot up baud rate is 9600 and the user wants that changed to HwSettings.GPSSpeed
|
|
// and that change can be either volatile (must be done each boot up) or non-volatile (stored in GPS's non-volatile settings storage)
|
|
// according to whether CONFIGURE is used or CONFIGUREANDSTORE is used
|
|
// The only user who should need CONFIGUREANDSTORE stored permanently in Revo is Dave, who configures many OP GPS's before shipping
|
|
// plug a factory default GPS in to a Revo, power up, wait for it to configure and permanently store in the GPS, power down, ship
|
|
// If autoconfig is not enabled
|
|
// it will use HwSettings.GPSSpeed for the baud rate and not do any configuration changes
|
|
// If GPSSettings.UbxAutoConfig == GPSSETTINGS_UBXAUTOCONFIG_CONFIGUREANDSTORE it will
|
|
// 1 Reset the permanent configuration back to factory default
|
|
// 2 Disable NEMA message settings
|
|
// 3 Add some volatile UBX settings to the copies of the non-volatile ones that are currently running
|
|
// 4 Save the current volatile settings to non-volatile storage
|
|
// If GPSSettings.UbxAutoConfig == GPSSETTINGS_UBXAUTOCONFIG_CONFIGURE it will
|
|
// 2 Disable NEMA message settings
|
|
// 3 Add some volatile UBX settings to the copies of the non-volatile ones that are currently running
|
|
// If the requested baud rate is 9600 or less it skips the step (3) of adding some volatile UBX settings
|
|
|
|
// Talking points to point out:
|
|
// U-center is no longer needed for any use case with this code
|
|
// 9600 is factory default for GPS's
|
|
// Some GPS can't even permanently store settings and must start at 9600 baud?
|
|
// I have a GPS that sometimes looses settings and reverts to 9600 and this is a fix for that too :)
|
|
// This code handles a GPS configured either way (9600 with factory default settings or e.g. 57600 with OP settings)
|
|
// Autoconfig.nostore at each boot for 9600, autoconfig.disabled for the 57600 with OP settings (or custom settings and baud)
|
|
// This code can permanently configure a GPS to be e.g. 9600 with factory default settings or 57600 with OP settings
|
|
// GPS's with 9600 baud and factory default settings would be a good default for future OP releases
|
|
// Changing the GPS internal settings multiple times in the future is handled automatically
|
|
// This code is written to do a configure from 9600 to 57600
|
|
// (actually 9600 to whatever is stored in HwSettings.GPSSpeed)
|
|
// if autoconfig is enabled at boot up
|
|
// When autoconfiging to 9600 baud or lower, the autoconfig will configure it to factory default settings, not OP settings
|
|
// That is because 9600 baud drops many of the OP messages and because 9600 baud is factory default
|
|
// For 19200 baud or higher, the autoconfig will configure it to OP required settings
|
|
// If autoconfig is enabled permanently in Revo, it will assume that the GPS is configured to power up at 9600 baud
|
|
// This is good for factory default GPS's
|
|
// This is good in case we change some settings in a future release
|
|
|
|
|
|
void ubx_autoconfig_run(char * *buffer, uint16_t *bytes_to_send)
|
|
{
|
|
*bytes_to_send = 0;
|
|
*buffer = (char *)status->working_packet.buffer;
|
|
current_step_touched = false;
|
|
|
|
// autoconfig struct not yet allocated
|
|
if (!status) {
|
|
return;
|
|
}
|
|
// smallest delay between each step
|
|
if (PIOS_DELAY_DiffuS(status->lastStepTimestampRaw) < UBX_VERIFIED_STEP_WAIT_TIME) {
|
|
return;
|
|
}
|
|
// get UBX version whether autoconfig is enabled or not
|
|
// this allows the user to try some baud rates and visibly see when it works
|
|
// ubxHwVersion is a global set externally by the caller of this function
|
|
if (ubxHwVersion <= 0) {
|
|
// at low baud rates and high data rates the ubx gps simply must drop some outgoing data
|
|
// this isn't really an error
|
|
// and when a lot of data is being dropped, the MON VER reply often gets dropped
|
|
// on the other hand, uBlox documents that some versions discard data that is over 1 second old
|
|
// implying a 1 second send buffer and that it could be over 1 second before a reply is received
|
|
// later uBlox versions dropped this 1 second constraint and drop data when the send buffer is full
|
|
// and that could be even longer than 1 second
|
|
// send this more quickly and it will get a reply more quickly if a fixed percentage of replies are being dropped
|
|
|
|
// wait for the normal reply timeout before sending it over and over
|
|
if (PIOS_DELAY_DiffuS(status->lastStepTimestampRaw) < UBX_REPLY_TIMEOUT) {
|
|
return;
|
|
}
|
|
build_request((UBXSentPacket_t *)&status->working_packet, UBX_CLASS_MON, UBX_ID_MON_VER, bytes_to_send);
|
|
// keep timeouts running properly, we (will have) just sent a packet that generates a reply
|
|
status->lastStepTimestampRaw = PIOS_DELAY_GetRaw();
|
|
return;
|
|
}
|
|
if (!enabled) {
|
|
// keep resetting the timeouts here if we are not actually going to run the configure code
|
|
// not really necessary, but it keeps the timer from wrapping every 50 seconds
|
|
status->lastStepTimestampRaw = PIOS_DELAY_GetRaw();
|
|
return; // autoconfig not enabled
|
|
}
|
|
|
|
// replaying constantly could wear the settings memory out
|
|
// don't allow constant reconfiging when offline
|
|
// don't even allow program bugs that could constantly toggle between connected and disconnected to cause configuring
|
|
if (status->currentStep == INIT_STEP_DONE || status->currentStep == INIT_STEP_ERROR) {
|
|
return;
|
|
}
|
|
|
|
switch (status->currentStep) {
|
|
case INIT_STEP_START:
|
|
// we should look for the GPS version again
|
|
ubx_reset_sensor_type();
|
|
// do not fall through to next state
|
|
// or it might try to get the sensor type when the baud rate is half changed
|
|
set_current_step_if_untouched(INIT_STEP_RESET_GPS);
|
|
// allow it to get the sensor type immmediately by not setting status->lastStepTimestampRaw = PIOS_DELAY_GetRaw();
|
|
break;
|
|
|
|
case INIT_STEP_RESET_GPS:
|
|
// make sure we don't change the baud rate too soon and garble the packet being sent
|
|
// even after pios says the buffer is empty, the serial port buffer still has data in it
|
|
// and changing the baud will screw it up
|
|
// when the GPS is configured to send a lot of data, but has a low baud rate
|
|
// it has way too many messages to send and has to drop most of them
|
|
|
|
// Retrieve desired GPS baud rate once for use throughout this module
|
|
HwSettingsGPSSpeedGet(&hwsettings_baud);
|
|
#if !defined(ALWAYS_RESET)
|
|
// ALWAYS_RESET is undefined because it causes stored settings to change even with autoconfig.nostore
|
|
// but with it off, some settings may be enabled that should really be disabled (but aren't) after autoconfig.nostore
|
|
// if user requests a low baud rate then we just reset and leave it set to NEMA
|
|
// because low baud and high OP data rate doesn't play nice
|
|
// if user requests that settings be saved, we will reset here too
|
|
// that makes sure that all strange settings are reset to factory default
|
|
// else these strange settings may persist because we don't reset all settings by table
|
|
if (status->currentSettings.storeSettings)
|
|
#endif
|
|
{
|
|
// reset all GPS parameters to factory default (configure low rate NEMA for low baud rates)
|
|
// this is not usable by OP code for either baud rate or types of messages sent
|
|
// but it starts up very quickly for use with autoconfig-nostore (which sets a high baud and enables all the necessary messages)
|
|
config_reset(bytes_to_send);
|
|
status->lastStepTimestampRaw = PIOS_DELAY_GetRaw();
|
|
}
|
|
// else allow it enter the next state immmediately by not setting status->lastStepTimestampRaw = PIOS_DELAY_GetRaw();
|
|
set_current_step_if_untouched(INIT_STEP_REVO_9600_BAUD);
|
|
break;
|
|
|
|
case INIT_STEP_REVO_9600_BAUD:
|
|
#if !defined(ALWAYS_RESET)
|
|
// if user requests a low baud rate then we just reset and leave it set to NEMA
|
|
// because low baud and high OP data rate doesn't play nice
|
|
// if user requests that settings be saved, we will reset here too
|
|
// that makes sure that all strange settings are reset to factory default
|
|
// else these strange settings may persist because we don't reset all settings by hand
|
|
if (status->currentSettings.storeSettings)
|
|
#endif
|
|
{
|
|
// wait for previous step
|
|
if (PIOS_DELAY_DiffuS(status->lastStepTimestampRaw) < UBX_UNVERIFIED_STEP_WAIT_TIME) {
|
|
return;
|
|
}
|
|
// set the Revo GPS port to 9600 baud to match the reset to factory default that has already been done
|
|
config_baud(HWSETTINGS_GPSSPEED_9600);
|
|
}
|
|
// at most, we just set Revo baud and that doesn't send any data
|
|
// fall through to next state
|
|
// we can do that if we choose because we haven't sent any data in this state
|
|
// set_current_step_if_untouched(INIT_STEP_GPS_BAUD);
|
|
// allow it enter the next state immmediately by not setting status->lastStepTimestampRaw = PIOS_DELAY_GetRaw();
|
|
// break;
|
|
|
|
case INIT_STEP_GPS_BAUD:
|
|
// https://www.u-blox.com/images/downloads/Product_Docs/u-bloxM8_ReceiverDescriptionProtocolSpec_%28UBX-13003221%29_Public.pdf
|
|
// It is possible to change the current communications port settings using a UBX-CFG-CFG message. This could
|
|
// affect baud rate and other transmission parameters. Because there may be messages queued for transmission
|
|
// there may be uncertainty about which protocol applies to such messages. In addition a message currently in
|
|
// transmission may be corrupted by a protocol change. Host data reception parameters may have to be changed to
|
|
// be able to receive future messages, including the acknowledge message associated with the UBX-CFG-CFG message.
|
|
|
|
// so the message that changes the baud rate will send it's acknowledgement back at the new baud rate; this is not good.
|
|
// if your message was corrupted, you didn't change the baud rate and you have to guess; try pinging at both baud rates.
|
|
// also, you would have to change the baud rate instantly after the last byte of the sentence was sent,
|
|
// and you would have to poll the port in real time for that, and there may be messages ahead of the baud rate change.
|
|
//
|
|
// so we ignore the ack from this. it has proven to be reliable (with the addition of two dummy bytes after the packet)
|
|
|
|
// set the GPS internal baud rate to the user configured value
|
|
config_gps_baud(bytes_to_send);
|
|
set_current_step_if_untouched(INIT_STEP_REVO_BAUD);
|
|
status->lastStepTimestampRaw = PIOS_DELAY_GetRaw();
|
|
break;
|
|
|
|
case INIT_STEP_REVO_BAUD:
|
|
// wait for previous step
|
|
if (PIOS_DELAY_DiffuS(status->lastStepTimestampRaw) < UBX_UNVERIFIED_STEP_WAIT_TIME) {
|
|
return;
|
|
}
|
|
// set the Revo GPS port baud rate to the (same) user configured value
|
|
config_baud(hwsettings_baud);
|
|
status->lastConfigSent = LAST_CONFIG_SENT_START;
|
|
status->retryCount = 0;
|
|
// skip enabling UBX sentences for low baud rates
|
|
// low baud rates are not usable, and higher data rates just makes it harder for this code to change the configuration
|
|
if (hwsettings_baud <= HWSETTINGS_GPSSPEED_9600) {
|
|
set_current_step_if_untouched(INIT_STEP_SAVE);
|
|
} else {
|
|
set_current_step_if_untouched(INIT_STEP_ENABLE_SENTENCES);
|
|
}
|
|
// allow it enter the next state immmediately by not setting status->lastStepTimestampRaw = PIOS_DELAY_GetRaw();
|
|
break;
|
|
|
|
case INIT_STEP_ENABLE_SENTENCES:
|
|
case INIT_STEP_CONFIGURE:
|
|
{
|
|
bool step_configure = (status->currentStep == INIT_STEP_CONFIGURE);
|
|
if (step_configure) {
|
|
configure(bytes_to_send);
|
|
} else {
|
|
enable_sentences(bytes_to_send);
|
|
}
|
|
|
|
// for some branches, allow it enter the next state immmediately by not setting status->lastStepTimestampRaw = PIOS_DELAY_GetRaw();
|
|
if (status->lastConfigSent == LAST_CONFIG_SENT_COMPLETED) {
|
|
if (step_configure) {
|
|
// zero retries for the next state that needs it (INIT_STEP_SAVE)
|
|
status->retryCount = 0;
|
|
set_current_step_if_untouched(INIT_STEP_SAVE);
|
|
} else {
|
|
// finished enabling sentences, now configure() needs to start at the beginning
|
|
status->lastConfigSent = LAST_CONFIG_SENT_START;
|
|
set_current_step_if_untouched(INIT_STEP_CONFIGURE);
|
|
}
|
|
} else {
|
|
set_current_step_if_untouched(step_configure ? INIT_STEP_CONFIGURE_WAIT_ACK : INIT_STEP_ENABLE_SENTENCES_WAIT_ACK);
|
|
status->lastStepTimestampRaw = PIOS_DELAY_GetRaw();
|
|
}
|
|
break;
|
|
}
|
|
|
|
case INIT_STEP_ENABLE_SENTENCES_WAIT_ACK:
|
|
case INIT_STEP_CONFIGURE_WAIT_ACK: // Wait for an ack from GPS
|
|
{
|
|
bool step_configure = (status->currentStep == INIT_STEP_CONFIGURE_WAIT_ACK);
|
|
if (ubxLastAck.clsID == status->requiredAck.clsID && ubxLastAck.msgID == status->requiredAck.msgID) {
|
|
// Continue with next configuration option
|
|
// start retries over for the next setting to be sent
|
|
status->retryCount = 0;
|
|
status->lastConfigSent++;
|
|
} else if (PIOS_DELAY_DiffuS(status->lastStepTimestampRaw) < UBX_REPLY_TIMEOUT &&
|
|
(ubxLastNak.clsID != status->requiredAck.clsID || ubxLastNak.msgID != status->requiredAck.msgID)) {
|
|
// allow timeouts to count up by not setting status->lastStepTimestampRaw = PIOS_DELAY_GetRaw();
|
|
break;
|
|
} else {
|
|
// timeout or NAK, resend the message or abort
|
|
status->retryCount++;
|
|
if (status->retryCount > UBX_MAX_RETRIES) {
|
|
set_current_step_if_untouched(INIT_STEP_ERROR);
|
|
status->lastStepTimestampRaw = PIOS_DELAY_GetRaw();
|
|
break;
|
|
}
|
|
}
|
|
// success or failure here, retries are handled elsewhere
|
|
if (step_configure) {
|
|
set_current_step_if_untouched(INIT_STEP_CONFIGURE);
|
|
} else {
|
|
set_current_step_if_untouched(INIT_STEP_ENABLE_SENTENCES);
|
|
}
|
|
break;
|
|
}
|
|
|
|
case INIT_STEP_SAVE:
|
|
if (status->currentSettings.storeSettings) {
|
|
config_save(bytes_to_send);
|
|
set_current_step_if_untouched(INIT_STEP_SAVE_WAIT_ACK);
|
|
status->lastStepTimestampRaw = PIOS_DELAY_GetRaw();
|
|
} else {
|
|
set_current_step_if_untouched(INIT_STEP_DONE);
|
|
// allow it enter INIT_STEP_DONE immmediately by not setting status->lastStepTimestampRaw = PIOS_DELAY_GetRaw();
|
|
}
|
|
break;
|
|
|
|
// we could remove this state
|
|
// if we retry, it writes to settings storage a few more times
|
|
// and it is probably the ack that was dropped, with the save actually performed correctly
|
|
case INIT_STEP_SAVE_WAIT_ACK:
|
|
if (ubxLastAck.clsID == status->requiredAck.clsID && ubxLastAck.msgID == status->requiredAck.msgID) {
|
|
// Continue with next configuration option
|
|
set_current_step_if_untouched(INIT_STEP_DONE);
|
|
// note that we increase the reply timeout in case the GPS must do a flash erase
|
|
} else if (PIOS_DELAY_DiffuS(status->lastStepTimestampRaw) < UBX_REPLY_TO_SAVE_TIMEOUT &&
|
|
(ubxLastNak.clsID != status->requiredAck.clsID || ubxLastNak.msgID != status->requiredAck.msgID)) {
|
|
// allow timeouts to count up by not setting status->lastStepTimestampRaw = PIOS_DELAY_GetRaw();
|
|
break;
|
|
} else {
|
|
// timeout or NAK, resend the message or abort
|
|
status->retryCount++;
|
|
if (status->retryCount > UBX_MAX_RETRIES / 2) {
|
|
// give up on the retries
|
|
set_current_step_if_untouched(INIT_STEP_ERROR);
|
|
status->lastStepTimestampRaw = PIOS_DELAY_GetRaw();
|
|
} else {
|
|
// retry a few times
|
|
set_current_step_if_untouched(INIT_STEP_SAVE);
|
|
}
|
|
}
|
|
break;
|
|
|
|
case INIT_STEP_ERROR:
|
|
// on error we should get the GPS version immediately
|
|
ubx_reset_sensor_type();
|
|
// fall through
|
|
case INIT_STEP_DISABLED:
|
|
case INIT_STEP_DONE:
|
|
break;
|
|
}
|
|
}
|
|
|
|
|
|
void ubx_autoconfig_set(ubx_autoconfig_settings_t *config)
|
|
{
|
|
initSteps_t new_step;
|
|
|
|
enabled = false;
|
|
|
|
if (!status) {
|
|
status = (status_t *)pios_malloc(sizeof(status_t));
|
|
PIOS_Assert(status);
|
|
memset((status_t *)status, 0, sizeof(status_t));
|
|
}
|
|
|
|
// if caller used NULL, just use current settings to restart autoconfig process
|
|
if (config != NULL) {
|
|
status->currentSettings = *config;
|
|
}
|
|
if (status->currentSettings.autoconfigEnabled) {
|
|
new_step = INIT_STEP_START;
|
|
} else {
|
|
new_step = INIT_STEP_DISABLED;
|
|
}
|
|
|
|
// assume this one byte initSteps_t is atomic
|
|
// take care of some but not all concurrency issues
|
|
|
|
status->currentStep = new_step;
|
|
status->currentStepSave = new_step;
|
|
current_step_touched = true;
|
|
status->currentStep = new_step;
|
|
status->currentStepSave = new_step;
|
|
|
|
if (status->currentSettings.autoconfigEnabled) {
|
|
enabled = true;
|
|
}
|
|
}
|
|
|
|
int32_t ubx_autoconfig_get_status()
|
|
{
|
|
if (!status || !enabled) {
|
|
return UBX_AUTOCONFIG_STATUS_DISABLED;
|
|
}
|
|
switch (status->currentStep) {
|
|
case INIT_STEP_ERROR:
|
|
return UBX_AUTOCONFIG_STATUS_ERROR;
|
|
|
|
case INIT_STEP_DISABLED:
|
|
return UBX_AUTOCONFIG_STATUS_DISABLED;
|
|
|
|
case INIT_STEP_DONE:
|
|
return UBX_AUTOCONFIG_STATUS_DONE;
|
|
|
|
default:
|
|
break;
|
|
}
|
|
return UBX_AUTOCONFIG_STATUS_RUNNING;
|
|
}
|