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22946b5e51
firmware/src/mesh/RadioInterface.cpp
geeksville 55dafcbecb fix #269 see below 
/**
 * Generate a short suffix used to disambiguate channels that might have the same "name" entered by the human but different PSKs.
 * The ideas is that the PSK changing should be visible to the user so that they see they probably messed up and that's why they
their nodes
 * aren't talking to each other.
 *
 * This string is of the form "#name-XY".
 *
 * Where X is a letter from A to Z (base26), and formed by xoring all the bytes of the PSK together.
 * Y is not yet used but should eventually indicate 'speed/range' of the link
 *
 * This function will also need to be implemented in GUI apps that talk to the radio.
 *
 * https://github.com/meshtastic/Meshtastic-device/issues/269
 */
const char *getChannelName();
2020-08-12 11:04:03 -07:00

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#include "RadioInterface.h"
#include "MeshRadio.h"
#include "MeshService.h"
#include "NodeDB.h"
#include "assert.h"
#include "configuration.h"
#include "sleep.h"
#include "timing.h"
#include <assert.h>
#include <pb_decode.h>
#include <pb_encode.h>
/**
* ## LoRaWAN for North America
LoRaWAN defines 64, 125 kHz channels from 902.3 to 914.9 MHz increments.
The maximum output power for North America is +30 dBM.
The band is from 902 to 928 MHz. It mentions channel number and its respective channel frequency. All the 13 channels are
separated by 2.16 MHz with respect to the adjacent channels. Channel zero starts at 903.08 MHz center frequency.
*/
// 1kb was too small
#define RADIO_STACK_SIZE 4096
void printPacket(const char *prefix, const MeshPacket *p)
{
DEBUG_MSG("%s (id=0x%08x Fr0x%02x To0x%02x, WantAck%d, HopLim%d", prefix, p->id, p->from & 0xff, p->to & 0xff, p->want_ack,
p->hop_limit);
if (p->which_payload == MeshPacket_decoded_tag) {
auto &s = p->decoded;
switch (s.which_payload) {
case SubPacket_data_tag:
DEBUG_MSG(" Payload:Data");
break;
case SubPacket_position_tag:
DEBUG_MSG(" Payload:Position");
break;
case SubPacket_user_tag:
DEBUG_MSG(" Payload:User");
break;
case 0:
DEBUG_MSG(" Payload:None");
break;
default:
DEBUG_MSG(" Payload:%d", s.which_payload);
break;
}
if (s.want_response)
DEBUG_MSG(" WANTRESP");
if (s.source != 0)
DEBUG_MSG(" source=%08x", s.source);
if (s.dest != 0)
DEBUG_MSG(" dest=%08x", s.dest);
if (s.which_ack == SubPacket_success_id_tag)
DEBUG_MSG(" successId=%08x", s.ack.success_id);
else if (s.which_ack == SubPacket_fail_id_tag)
DEBUG_MSG(" failId=%08x", s.ack.fail_id);
} else {
DEBUG_MSG(" encrypted");
}
if (p->rx_time != 0) {
DEBUG_MSG(" rxtime=%u", p->rx_time);
}
DEBUG_MSG(")\n");
}
RadioInterface::RadioInterface()
{
assert(sizeof(PacketHeader) == 4 || sizeof(PacketHeader) == 16); // make sure the compiler did what we expected
myNodeInfo.num_channels = NUM_CHANNELS;
// Can't print strings this early - serial not setup yet
// DEBUG_MSG("Set meshradio defaults name=%s\n", channelSettings.name);
}
bool RadioInterface::init()
{
DEBUG_MSG("Starting meshradio init...\n");
configChangedObserver.observe(&service.configChanged);
preflightSleepObserver.observe(&preflightSleep);
notifyDeepSleepObserver.observe(&notifyDeepSleep);
// we now expect interfaces to operate in promiscous mode
// radioIf.setThisAddress(nodeDB.getNodeNum()); // Note: we must do this here, because the nodenum isn't inited at constructor
// time.
// we want this thread to run at very high priority, because it is effectively running as a user space ISR
start("radio", RADIO_STACK_SIZE, configMAX_PRIORITIES - 1); // Start our worker thread
return true;
}
/** hash a string into an integer
*
* djb2 by Dan Bernstein.
* http://www.cse.yorku.ca/~oz/hash.html
*/
unsigned long hash(char *str)
{
unsigned long hash = 5381;
int c;
while ((c = *str++) != 0)
hash = ((hash << 5) + hash) + (unsigned char)c; /* hash * 33 + c */
return hash;
}
#define POWER_DEFAULT 17
/**
* Pull our channel settings etc... from protobufs to the dumb interface settings
*/
void RadioInterface::applyModemConfig()
{
// Set up default configuration
// No Sync Words in LORA mode
power = channelSettings.tx_power;
if (power == 0)
power = POWER_DEFAULT;
// If user has manually specified a channel num, then use that, otherwise generate one by hashing the name
int channel_num = (channelSettings.channel_num ? channelSettings.channel_num - 1 : hash(channelSettings.name)) % NUM_CHANNELS;
freq = CH0 + CH_SPACING * channel_num;
DEBUG_MSG("Set radio: name=%s, config=%u, ch=%d, power=%d\n", channelSettings.name, channelSettings.modem_config, channel_num,
power);
}
ErrorCode SimRadio::send(MeshPacket *p)
{
DEBUG_MSG("SimRadio.send\n");
packetPool.release(p);
return ERRNO_OK;
}
void RadioInterface::deliverToReceiver(MeshPacket *p)
{
assert(rxDest);
assert(rxDest->enqueue(p, 0)); // NOWAIT - fixme, if queue is full, delete older messages
}
/***
* given a packet set sendingPacket and decode the protobufs into radiobuf. Returns # of payload bytes to send
*/
size_t RadioInterface::beginSending(MeshPacket *p)
{
assert(!sendingPacket);
// DEBUG_MSG("sending queued packet on mesh (txGood=%d,rxGood=%d,rxBad=%d)\n", rf95.txGood(), rf95.rxGood(), rf95.rxBad());
assert(p->which_payload == MeshPacket_encrypted_tag); // It should have already been encoded by now
lastTxStart = timing::millis();
PacketHeader *h = (PacketHeader *)radiobuf;
h->from = p->from;
h->to = p->to;
h->id = p->id;
assert(p->hop_limit <= HOP_MAX);
h->flags = p->hop_limit | (p->want_ack ? PACKET_FLAGS_WANT_ACK_MASK : 0);
// if the sender nodenum is zero, that means uninitialized
assert(h->from);
memcpy(radiobuf + sizeof(PacketHeader), p->encrypted.bytes, p->encrypted.size);
sendingPacket = p;
return p->encrypted.size + sizeof(PacketHeader);
}
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