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adapter_nrf528xx-full.go
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adapter_nrf528xx-full.go
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//go:build (softdevice && s132v6) || (softdevice && s140v6) || (softdevice && s140v7)
package bluetooth
// This file implements the event handler for SoftDevices with full support:
// both central and peripheral mode. This includes S132 and S140.
/*
#include "nrf_sdm.h"
#include "nrf_nvic.h"
#include "ble.h"
#include "ble_gap.h"
*/
import "C"
import (
"unsafe"
)
func handleEvent() {
id := eventBuf.header.evt_id
switch {
case id >= C.BLE_GAP_EVT_BASE && id <= C.BLE_GAP_EVT_LAST:
gapEvent := eventBuf.evt.unionfield_gap_evt()
switch id {
case C.BLE_GAP_EVT_CONNECTED:
connectEvent := gapEvent.params.unionfield_connected()
device := Device{
Address: Address{makeMACAddress(connectEvent.peer_addr)},
connectionHandle: gapEvent.conn_handle,
}
switch connectEvent.role {
case C.BLE_GAP_ROLE_PERIPH:
if debug {
println("evt: connected in peripheral role")
}
currentConnection.handle.Reg = uint16(gapEvent.conn_handle)
DefaultAdapter.connectHandler(device, true)
case C.BLE_GAP_ROLE_CENTRAL:
if debug {
println("evt: connected in central role")
}
connectionAttempt.connectionHandle = gapEvent.conn_handle
connectionAttempt.state.Set(2) // connection was successful
DefaultAdapter.connectHandler(device, true)
}
case C.BLE_GAP_EVT_DISCONNECTED:
if debug {
println("evt: disconnected")
}
// Clean up state for this connection.
for i, cb := range gattcNotificationCallbacks {
if uint16(cb.connectionHandle) == currentConnection.handle.Reg {
gattcNotificationCallbacks[i].valueHandle = 0 // 0 means invalid
}
}
currentConnection.handle.Reg = C.BLE_CONN_HANDLE_INVALID
// Auto-restart advertisement if needed.
if defaultAdvertisement.isAdvertising.Get() != 0 {
// The advertisement was running but was automatically stopped
// by the connection event.
// Note that it cannot be restarted during connect like this,
// because it would need to be reconfigured as a non-connectable
// advertisement. That's left as a future addition, if
// necessary.
C.sd_ble_gap_adv_start(defaultAdvertisement.handle, C.BLE_CONN_CFG_TAG_DEFAULT)
}
device := Device{
connectionHandle: gapEvent.conn_handle,
}
DefaultAdapter.connectHandler(device, false)
case C.BLE_GAP_EVT_CONN_PARAM_UPDATE:
if debug {
// Print connection parameters for easy debugging.
params := gapEvent.params.unionfield_conn_param_update().conn_params
interval_ms := params.min_conn_interval * 125 / 100 // min and max are the same here
print("conn param update interval=", interval_ms, "ms latency=", params.slave_latency, " timeout=", params.conn_sup_timeout*10, "ms")
println()
}
case C.BLE_GAP_EVT_ADV_REPORT:
advReport := gapEvent.params.unionfield_adv_report()
if debug && &scanReportBuffer.data[0] != (*byte)(unsafe.Pointer(advReport.data.p_data)) {
// Sanity check.
panic("scanReportBuffer != advReport.p_data")
}
// Prepare the globalScanResult, which will be passed to the
// callback.
scanReportBuffer.len = byte(advReport.data.len)
globalScanResult.RSSI = int16(advReport.rssi)
globalScanResult.Address = Address{
makeMACAddress(advReport.peer_addr),
}
globalScanResult.AdvertisementPayload = &scanReportBuffer
// Signal to the main thread that there was a scan report.
// Scanning will be resumed (from the main thread) once the scan
// report has been processed.
gotScanReport.Set(1)
case C.BLE_GAP_EVT_CONN_PARAM_UPDATE_REQUEST:
// Respond with the default PPCP connection parameters by passing
// nil:
// > If NULL is provided on a peripheral role, the parameters in the
// > PPCP characteristic of the GAP service will be used instead. If
// > NULL is provided on a central role and in response to a
// > BLE_GAP_EVT_CONN_PARAM_UPDATE_REQUEST, the peripheral request
// > will be rejected
C.sd_ble_gap_conn_param_update(gapEvent.conn_handle, nil)
case C.BLE_GAP_EVT_DATA_LENGTH_UPDATE_REQUEST:
// We need to respond with sd_ble_gap_data_length_update. Setting
// both parameters to nil will make sure we send the default values.
C.sd_ble_gap_data_length_update(gapEvent.conn_handle, nil, nil)
case C.BLE_GAP_EVT_DATA_LENGTH_UPDATE:
// ignore confirmation of data length successfully updated
case C.BLE_GAP_EVT_PHY_UPDATE_REQUEST:
phyUpdateRequest := gapEvent.params.unionfield_phy_update_request()
C.sd_ble_gap_phy_update(gapEvent.conn_handle, &phyUpdateRequest.peer_preferred_phys)
case C.BLE_GAP_EVT_PHY_UPDATE:
// ignore confirmation of phy successfully updated
case C.BLE_GAP_EVT_TIMEOUT:
timeoutEvt := gapEvent.params.unionfield_timeout()
switch timeoutEvt.src {
case C.BLE_GAP_TIMEOUT_SRC_CONN:
// Failed to connect to a peripheral.
if debug {
println("gap timeout: conn")
}
connectionAttempt.state.Set(3) // connection timed out
default:
// For example a scan timeout.
if debug {
println("gap timeout: other")
}
}
default:
if debug {
println("unknown GAP event:", id)
}
}
case id >= C.BLE_GATTS_EVT_BASE && id <= C.BLE_GATTS_EVT_LAST:
gattsEvent := eventBuf.evt.unionfield_gatts_evt()
switch id {
case C.BLE_GATTS_EVT_WRITE:
writeEvent := gattsEvent.params.unionfield_write()
len := writeEvent.len - writeEvent.offset
data := (*[255]byte)(unsafe.Pointer(&writeEvent.data[0]))[:len:len]
handler := DefaultAdapter.getCharWriteHandler(writeEvent.handle)
if handler != nil {
handler.callback(Connection(gattsEvent.conn_handle), int(writeEvent.offset), data)
}
case C.BLE_GATTS_EVT_SYS_ATTR_MISSING:
// This event is generated when reading the Generic Attribute
// service. It appears to be necessary for bonded devices.
// From the docs:
// > If the pointer is NULL, the system attribute info is
// > initialized, assuming that the application does not have any
// > previously saved system attribute data for this device.
// Maybe we should look at the error, but as there's not really a
// way to handle it, ignore it.
C.sd_ble_gatts_sys_attr_set(gattsEvent.conn_handle, nil, 0, 0)
case C.BLE_GATTS_EVT_EXCHANGE_MTU_REQUEST:
// This event is generated by some devices. While we could support
// larger MTUs, this default MTU is supported everywhere.
C.sd_ble_gatts_exchange_mtu_reply(gattsEvent.conn_handle, C.BLE_GATT_ATT_MTU_DEFAULT)
case C.BLE_GATTS_EVT_HVN_TX_COMPLETE:
// ignore confirmation of a notification successfully sent
default:
if debug {
println("unknown GATTS event:", id, id-C.BLE_GATTS_EVT_BASE)
}
}
case id >= C.BLE_GATTC_EVT_BASE && id <= C.BLE_GATTC_EVT_LAST:
gattcEvent := eventBuf.evt.unionfield_gattc_evt()
switch id {
case C.BLE_GATTC_EVT_PRIM_SRVC_DISC_RSP:
discoveryEvent := gattcEvent.params.unionfield_prim_srvc_disc_rsp()
if debug {
println("evt: discovered primary service", discoveryEvent.count)
}
discoveringService.state.Set(2) // signal there is a result
if discoveryEvent.count >= 1 {
// Theoretically there may be more, but as we're only using
// sd_ble_gattc_primary_services_discover, there should only be
// one discovered service. Use the first as a sensible fallback.
discoveringService.startHandle.Set(discoveryEvent.services[0].handle_range.start_handle)
discoveringService.endHandle.Set(discoveryEvent.services[0].handle_range.end_handle)
discoveringService.uuid = discoveryEvent.services[0].uuid
} else {
// No service found.
discoveringService.startHandle.Set(0)
}
case C.BLE_GATTC_EVT_CHAR_DISC_RSP:
discoveryEvent := gattcEvent.params.unionfield_char_disc_rsp()
if debug {
println("evt: discovered characteristics", discoveryEvent.count)
}
if discoveryEvent.count >= 1 {
// There may be more, but for ease of implementing we only
// handle the first.
discoveringCharacteristic.handle_value.Set(discoveryEvent.chars[0].handle_value)
discoveringCharacteristic.char_props = discoveryEvent.chars[0].char_props
discoveringCharacteristic.uuid = discoveryEvent.chars[0].uuid
} else {
// zero indicates we received no characteristic, set handle_value to last
discoveringCharacteristic.handle_value.Set(0xffff)
}
case C.BLE_GATTC_EVT_DESC_DISC_RSP:
discoveryEvent := gattcEvent.params.unionfield_desc_disc_rsp()
if debug {
println("evt: discovered descriptors", discoveryEvent.count)
}
if discoveryEvent.count >= 1 {
// There may be more, but for ease of implementing we only
// handle the first.
uuid := discoveryEvent.descs[0].uuid
if uuid._type == C.BLE_UUID_TYPE_BLE && uuid.uuid == 0x2902 {
// Found a CCCD (Client Characteristic Configuration
// Descriptor), which has a 16-bit UUID with value 0x2902).
discoveringCharacteristic.handle_value.Set(discoveryEvent.descs[0].handle)
} else {
// Found something else?
// TODO: handle this properly by continuing the scan. For
// now, give up if we found something other than a CCCD.
if debug {
println(" found some other descriptor (unimplemented)")
}
}
}
case C.BLE_GATTC_EVT_READ_RSP:
readEvent := gattcEvent.params.unionfield_read_rsp()
if debug {
println("evt: read response, data length", readEvent.len)
}
readingCharacteristic.handle_value.Set(readEvent.handle)
readingCharacteristic.offset = readEvent.offset
readingCharacteristic.length = readEvent.len
// copy read event data into Go slice
copy(readingCharacteristic.value, (*[255]byte)(unsafe.Pointer(&readEvent.data[0]))[:readEvent.len:readEvent.len])
case C.BLE_GATTC_EVT_HVX:
hvxEvent := gattcEvent.params.unionfield_hvx()
switch hvxEvent._type {
case C.BLE_GATT_HVX_NOTIFICATION:
if debug {
println("evt: notification", hvxEvent.handle)
}
// Find the callback and call it (if there is any).
for _, callbackInfo := range gattcNotificationCallbacks {
if callbackInfo.valueHandle == hvxEvent.handle && callbackInfo.connectionHandle == gattcEvent.conn_handle {
// Create a Go slice from the data, to pass to the
// callback.
data := (*[255]byte)(unsafe.Pointer(&hvxEvent.data[0]))[:hvxEvent.len:hvxEvent.len]
if callbackInfo.callback != nil {
callbackInfo.callback(data)
}
break
}
}
}
default:
if debug {
println("unknown GATTC event:", id, id-C.BLE_GATTC_EVT_BASE)
}
}
default:
if debug {
println("unknown event:", id)
}
}
}