/* * Copyright 2020-2024 Ryan Powell and * esp-nimble-cpp, NimBLE-Arduino contributors. * * 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 "nimconfig.h" #if defined(CONFIG_BT_ENABLED) # include "NimBLEAddress.h" # include "NimBLELog.h" # include static const char* LOG_TAG = "NimBLEAddress"; /************************************************* * NOTE: NimBLE address bytes are in INVERSE ORDER! * We will accommodate that fact in these methods. *************************************************/ /** * @brief Create an address from the native NimBLE representation. * @param [in] address The native NimBLE address. */ NimBLEAddress::NimBLEAddress(ble_addr_t address) : ble_addr_t{address} {} /** * @brief Create an address from a hex string. * * A hex string is of the format: * ``` * 00:00:00:00:00:00 * ``` * which is 17 characters in length. * @param [in] addr The hex string representation of the address. * @param [in] type The type of the address. */ NimBLEAddress::NimBLEAddress(const std::string& addr, uint8_t type) { this->type = type; if (addr.length() == BLE_DEV_ADDR_LEN) { std::reverse_copy(addr.data(), addr.data() + BLE_DEV_ADDR_LEN, this->val); return; } if (addr.length() == 17) { std::string mac{addr}; mac.erase(std::remove(mac.begin(), mac.end(), ':'), mac.end()); uint64_t address = std::stoull(mac, nullptr, 16); memcpy(this->val, &address, sizeof this->val); return; } *this = NimBLEAddress{}; NIMBLE_LOGE(LOG_TAG, "Invalid address '%s'", addr.c_str()); } // NimBLEAddress /** * @brief Constructor for compatibility with bluedroid esp library using native ESP representation. * @param [in] address A uint8_t[6] or esp_bd_addr_t containing the address. * @param [in] type The type of the address. */ NimBLEAddress::NimBLEAddress(const uint8_t address[BLE_DEV_ADDR_LEN], uint8_t type) { std::reverse_copy(address, address + BLE_DEV_ADDR_LEN, this->val); this->type = type; } // NimBLEAddress /** * @brief Constructor for address using a hex value.\n * Use the same byte order, so use 0xa4c1385def16 for "a4:c1:38:5d:ef:16" * @param [in] address uint64_t containing the address. * @param [in] type The type of the address. */ NimBLEAddress::NimBLEAddress(const uint64_t& address, uint8_t type) { memcpy(this->val, &address, sizeof this->val); this->type = type; } // NimBLEAddress /** * @brief Determine if this address equals another. * @param [in] otherAddress The other address to compare against. * @return True if the addresses are equal. */ bool NimBLEAddress::equals(const NimBLEAddress& otherAddress) const { return *this == otherAddress; } // equals /** * @brief Get the NimBLE base struct of the address. * @return A read only reference to the NimBLE base struct of the address. */ const ble_addr_t* NimBLEAddress::getBase() const { return reinterpret_cast(this); } // getBase /** * @brief Get the address type. * @return The address type. */ uint8_t NimBLEAddress::getType() const { return this->type; } // getType /** * @brief Get the address value. * @return A read only reference to the address value. */ const uint8_t* NimBLEAddress::getVal() const { return this->val; } // getVal /** * @brief Determine if this address is a Resolvable Private Address. * @return True if the address is a RPA. */ bool NimBLEAddress::isRpa() const { return BLE_ADDR_IS_RPA(this); } // isRpa /** * @brief Determine if this address is a Non-Resolvable Private Address. * @return True if the address is a NRPA. */ bool NimBLEAddress::isNrpa() const { return BLE_ADDR_IS_NRPA(this); } // isNrpa /** * @brief Determine if this address is a Static Address. * @return True if the address is a Static Address. */ bool NimBLEAddress::isStatic() const { return BLE_ADDR_IS_STATIC(this); } // isStatic /** * @brief Determine if this address is a Public Address. * @return True if the address is a Public Address. */ bool NimBLEAddress::isPublic() const { return this->type == BLE_ADDR_PUBLIC; } // isPublic /** * @brief Determine if this address is a NULL Address. * @return True if the address is a NULL Address. */ bool NimBLEAddress::isNull() const { return *this == NimBLEAddress{}; } // isNull /** * @brief Convert a BLE address to a string. * @return The string representation of the address. * @deprecated Use std::string() operator instead. */ std::string NimBLEAddress::toString() const { return std::string(*this); } // toString /** * @brief Reverse the byte order of the address. * @return A reference to this address. */ const NimBLEAddress& NimBLEAddress::reverseByteOrder() { std::reverse(this->val, this->val + BLE_DEV_ADDR_LEN); return *this; } // reverseByteOrder /** * @brief Convenience operator to check if this address is equal to another. */ bool NimBLEAddress::operator==(const NimBLEAddress& rhs) const { if (this->type != rhs.type) { return false; } return memcmp(rhs.val, this->val, sizeof this->val) == 0; } // operator == /** * @brief Convenience operator to check if this address is not equal to another. */ bool NimBLEAddress::operator!=(const NimBLEAddress& rhs) const { return !this->operator==(rhs); } // operator != /** * @brief Convenience operator to convert this address to string representation. * @details This allows passing NimBLEAddress to functions that accept std::string and/or it's methods as a parameter. */ NimBLEAddress::operator std::string() const { char buffer[18]; snprintf(buffer, sizeof(buffer), "%02x:%02x:%02x:%02x:%02x:%02x", this->val[5], this->val[4], this->val[3], this->val[2], this->val[1], this->val[0]); return std::string{buffer}; } // operator std::string /** * @brief Convenience operator to convert the native address representation to uint_64. */ NimBLEAddress::operator uint64_t() const { uint64_t address = 0; memcpy(&address, this->val, sizeof this->val); return address; } // operator uint64_t #endif