esp-idf/components/openthread/port/esp_openthread_radio_uart.cpp

// Copyright 2021 Espressif Systems (Shanghai) CO LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at

//     http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License

#include "esp_openthread_radio_uart.h"

#include "esp_check.h"
#include "esp_err.h"
#include "esp_openthread_common_macro.h"
#include "esp_openthread_types.h"
#include "esp_uart_spinel_interface.hpp"
#include "lib/spinel/radio_spinel.hpp"
#include "openthread/platform/diag.h"
#include "openthread/platform/radio.h"

using ot::Spinel::RadioSpinel;
using esp::openthread::UartSpinelInterface;

static RadioSpinel<UartSpinelInterface, esp_openthread_mainloop_context_t> s_radio;

esp_err_t esp_openthread_radio_init(const esp_openthread_platform_config_t *config)
{
    ESP_RETURN_ON_ERROR(s_radio.GetSpinelInterface().Init(config->radio_config.radio_uart_config), OT_PLAT_LOG_TAG,
                        "Spinel interface init falied");
    s_radio.Init(/*reset_radio=*/true, /*restore_dataset_from_ncp=*/false, /*skip_rcp_compatibility_check=*/false);
    return ESP_OK;
}

void esp_openthread_radio_deinit(void)
{
    s_radio.Deinit();
}

esp_err_t esp_openthread_radio_process(otInstance *instance, const esp_openthread_mainloop_context_t *mainloop)
{
    s_radio.Process(*mainloop);

    return ESP_OK;
}

void esp_openthread_radio_update(esp_openthread_mainloop_context_t *mainloop)
{
    s_radio.GetSpinelInterface().Update(*mainloop);
}

void otPlatRadioGetIeeeEui64(otInstance *instance, uint8_t *ieee_eui64)
{
    SuccessOrDie(s_radio.GetIeeeEui64(ieee_eui64));
}

void otPlatRadioSetPanId(otInstance *instance, uint16_t pan_id)
{
    SuccessOrDie(s_radio.SetPanId(pan_id));
}

void otPlatRadioSetExtendedAddress(otInstance *instance, const otExtAddress *address)
{
    otExtAddress addr;

    for (size_t i = 0; i < sizeof(addr); i++) {
        addr.m8[i] = address->m8[sizeof(addr) - 1 - i];
    }

    SuccessOrDie(s_radio.SetExtendedAddress(addr));
}

void otPlatRadioSetShortAddress(otInstance *instance, uint16_t address)
{
    SuccessOrDie(s_radio.SetShortAddress(address));
}

void otPlatRadioSetPromiscuous(otInstance *instance, bool enable)
{
    SuccessOrDie(s_radio.SetPromiscuous(enable));
}

bool otPlatRadioIsEnabled(otInstance *instance)
{
    return s_radio.IsEnabled();
}

otError otPlatRadioEnable(otInstance *instance)
{
    return s_radio.Enable(instance);
}

otError otPlatRadioDisable(otInstance *instance)
{
    return s_radio.Disable();
}

otError otPlatRadioSleep(otInstance *instance)
{
    return s_radio.Sleep();
}

otError otPlatRadioReceive(otInstance *instance, uint8_t channel)
{
    return s_radio.Receive(channel);
}

otError otPlatRadioTransmit(otInstance *instance, otRadioFrame *frame)
{
    return s_radio.Transmit(*frame);
}

otRadioFrame *otPlatRadioGetTransmitBuffer(otInstance *instance)
{
    return &s_radio.GetTransmitFrame();
}

int8_t otPlatRadioGetRssi(otInstance *instance)
{
    return s_radio.GetRssi();
}

otRadioCaps otPlatRadioGetCaps(otInstance *instance)
{
    return s_radio.GetRadioCaps();
}

bool otPlatRadioGetPromiscuous(otInstance *instance)
{
    return s_radio.IsPromiscuous();
}

void otPlatRadioEnableSrcMatch(otInstance *instance, bool enable)
{
    SuccessOrDie(s_radio.EnableSrcMatch(enable));
}

otError otPlatRadioAddSrcMatchShortEntry(otInstance *instance, uint16_t short_address)
{
    return s_radio.AddSrcMatchShortEntry(short_address);
}

otError otPlatRadioAddSrcMatchExtEntry(otInstance *instance, const otExtAddress *ext_address)
{
    otExtAddress addr;

    for (size_t i = 0; i < sizeof(addr); i++) {
        addr.m8[i] = ext_address->m8[sizeof(addr) - 1 - i];
    }

    return s_radio.AddSrcMatchExtEntry(addr);
}

otError otPlatRadioClearSrcMatchShortEntry(otInstance *instance, uint16_t short_address)
{
    return s_radio.ClearSrcMatchShortEntry(short_address);
}

otError otPlatRadioClearSrcMatchExtEntry(otInstance *instance, const otExtAddress *ext_address)
{
    otExtAddress addr;

    for (size_t i = 0; i < sizeof(addr); i++) {
        addr.m8[i] = ext_address->m8[sizeof(addr) - 1 - i];
    }

    return s_radio.ClearSrcMatchExtEntry(addr);
}

void otPlatRadioClearSrcMatchShortEntries(otInstance *instance)
{
    SuccessOrDie(s_radio.ClearSrcMatchShortEntries());
}

void otPlatRadioClearSrcMatchExtEntries(otInstance *instance)
{
    SuccessOrDie(s_radio.ClearSrcMatchExtEntries());
}

otError otPlatRadioEnergyScan(otInstance *instance, uint8_t channel, uint16_t duration)
{
    return s_radio.EnergyScan(channel, duration);
}

otError otPlatRadioGetTransmitPower(otInstance *instance, int8_t *power)
{
    otError error;

    VerifyOrExit(power != NULL, error = OT_ERROR_INVALID_ARGS);
    error = s_radio.GetTransmitPower(*power);

exit:
    return error;
}

otError otPlatRadioSetTransmitPower(otInstance *instance, int8_t power)
{
    return s_radio.SetTransmitPower(power);
}

otError otPlatRadioGetCcaEnergyDetectThreshold(otInstance *instance, int8_t *threshold)
{
    otError error;

    VerifyOrExit(threshold != NULL, error = OT_ERROR_INVALID_ARGS);
    error = s_radio.GetCcaEnergyDetectThreshold(*threshold);

exit:
    return error;
}

otError otPlatRadioSetCcaEnergyDetectThreshold(otInstance *instance, int8_t threshold)
{
    return s_radio.SetCcaEnergyDetectThreshold(threshold);
}

int8_t otPlatRadioGetReceiveSensitivity(otInstance *instance)
{
    return s_radio.GetReceiveSensitivity();
}

void otPlatRadioSetMacKey(otInstance     *aInstance,
                          uint8_t         aKeyIdMode,
                          uint8_t         aKeyId,
                          const otMacKey *aPrevKey,
                          const otMacKey *aCurrKey,
                          const otMacKey *aNextKey)
{
    SuccessOrDie(s_radio.SetMacKey(aKeyIdMode, aKeyId, *aPrevKey, *aCurrKey, *aNextKey));
}

void otPlatRadioSetMacFrameCounter(otInstance *aInstance, uint32_t aMacFrameCounter)
{
    SuccessOrDie(s_radio.SetMacFrameCounter(aMacFrameCounter));
}

#if OPENTHREAD_CONFIG_DIAG_ENABLE
otError otPlatDiagProcess(otInstance *instance, int argc, char *argv[], char *output, size_t output_max_len)
{
    // deliver the platform specific diags commands to radio only ncp.
    char  cmd[OPENTHREAD_CONFIG_DIAG_CMD_LINE_BUFFER_SIZE] = {'\0'};
    char *cur                                              = cmd;
    char *end                                              = cmd + sizeof(cmd);

    for (int index = 0; index < argc; index++) {
        cur += snprintf(cur, static_cast<size_t>(end - cur), "%s ", argv[index]);
    }

    return s_radio.PlatDiagProcess(cmd, output, output_max_len);
}

void otPlatDiagModeSet(bool aMode)
{
    SuccessOrExit(s_radio.PlatDiagProcess(aMode ? "start" : "stop", NULL, 0));
    s_radio.SetDiagEnabled(aMode);

exit:
    return;
}

bool otPlatDiagModeGet(void)
{
    return s_radio.IsDiagEnabled();
}

void otPlatDiagTxPowerSet(int8_t tx_power)
{
    char cmd[OPENTHREAD_CONFIG_DIAG_CMD_LINE_BUFFER_SIZE];

    snprintf(cmd, sizeof(cmd), "power %d", tx_power);
    SuccessOrExit(s_radio.PlatDiagProcess(cmd, NULL, 0));

exit:
    return;
}

void otPlatDiagChannelSet(uint8_t channel)
{
    char cmd[OPENTHREAD_CONFIG_DIAG_CMD_LINE_BUFFER_SIZE];

    snprintf(cmd, sizeof(cmd), "channel %d", channel);
    SuccessOrExit(s_radio.PlatDiagProcess(cmd, NULL, 0));

exit:
    return;
}

void otPlatDiagRadioReceived(otInstance *instance, otRadioFrame *frame, otError error)
{
}

void otPlatDiagAlarmCallback(otInstance *instance)
{
}
#endif // OPENTHREAD_CONFIG_DIAG_ENABLE