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esp-nimble-cpp/src/NimBLEUUID.cpp
h2zero 020c61700d [BREAKING]- Refactor client 
* General code cleanup and rename variables to use a consistent style.
* Removes the disconnect timer and will use the BLE_GAP_EVENT_TERM_FAILURE event to handle failed disconnects.
* `NimBLEClient::getConnId` has been renamed to `getConnHandle` to be consistent with bluetooth terminology.
* `NimBLEClient::disconnect` now returns a `bool = true on success` instead of an int to be consistent with the rest of the library.
* `NimBLEClient::setPeerAddress` now returns a bool, true on success.
* `NimBLEClientCallbacks::onConfirmPIN` renamed to `NimBLEClientCallbacks::onConfirmPasskey` to be consistent with bluetooth terminology.
* `NimBLEClient::setDataLen` now returns bool, true if successful.
* `NimBLEClient::updateConnParams` now returns bool, true if successful.
* `NimBLEClient::getServices` now returns a const reference to std::vector<NimBLERemoteService*> instead of a pointer to the internal vector.
2024-11-03 18:12:20 -07:00

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/*
* NimBLEUUID.cpp
*
* Created: on Jan 24 2020
* Author H2zero
*
* Originally:
*
* BLEUUID.cpp
*
* Created on: Jun 21, 2017
* Author: kolban
*/
#include "nimconfig.h"
#if defined(CONFIG_BT_ENABLED)
# include "NimBLEUtils.h"
# include "NimBLEUUID.h"
# include "NimBLELog.h"
/**** FIX COMPILATION ****/
# undef min
# undef max
/**************************/
# include <algorithm>
static const char* LOG_TAG = "NimBLEUUID";
static const uint8_t ble_base_uuid[] = {
0xfb, 0x34, 0x9b, 0x5f, 0x80, 0x00, 0x00, 0x80, 0x00, 0x10, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
/**
* @brief Create a UUID from the native UUID.
* @param [in] uuid The native UUID.
*/
NimBLEUUID::NimBLEUUID(const ble_uuid_any_t& uuid) : m_uuid{uuid} {}
/**
* @brief Create a UUID from a string.
*
* Create a UUID from a string. There will be two possible stories here. Either
* the string represents a binary data field or the string represents a hex
* encoding of a UUID. For the hex encoding, here is an example:
*
* ```
* "beb5483e-36e1-4688-b7f5-ea07361b26a8"
* 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5
* 12345678-90ab-cdef-1234-567890abcdef
* ```
*
* This has a length of 36 characters. We need to parse this into 16 bytes.
*
* @param [in] value The string to build a UUID from.
*/
NimBLEUUID::NimBLEUUID(const std::string& value) {
if (value.length() == 4) {
m_uuid.u.type = BLE_UUID_TYPE_16;
m_uuid.u16.value = strtoul(value.c_str(), nullptr, 16);
} else if (value.length() == 8) {
m_uuid.u.type = BLE_UUID_TYPE_32;
m_uuid.u32.value = strtoul(value.c_str(), nullptr, 16);
} else if (value.length() == 16) {
memcpy(m_uuid.u128.value, &value[0], 16);
m_uuid.u.type = BLE_UUID_TYPE_128;
} else if (value.length() == 36) {
char* position;
uint64_t first_half = (strtoull(&value[0], &position, 16) << 32) +
(strtoull(position + 1, &position, 16) << 16) + strtoull(position + 1, &position, 16);
uint64_t second_half = (strtoull(position + 1, &position, 16) << 48) + strtoull(position + 1, nullptr, 16);
memcpy(m_uuid.u128.value + 8, &first_half, 8);
memcpy(m_uuid.u128.value, &second_half, 8);
m_uuid.u.type = BLE_UUID_TYPE_128;
} else {
NIMBLE_LOGE(LOG_TAG, "Invalid UUID length");
m_uuid.u.type = 0;
}
} // NimBLEUUID(std::string)
/**
* @brief Create a UUID from 2, 4, 16 bytes of memory.
* @param [in] pData The pointer to the start of the UUID.
* @param [in] size The size of the data.
*/
NimBLEUUID::NimBLEUUID(const uint8_t* pData, size_t size) {
if (ble_uuid_init_from_buf(&m_uuid, pData, size)) {
NIMBLE_LOGE(LOG_TAG, "Invalid UUID size");
m_uuid.u.type = 0;
}
} // NimBLEUUID(const uint8_t* pData, size_t size)
/**
* @brief Create a UUID from the 16bit value.
* @param [in] uuid The 16bit short form UUID.
*/
NimBLEUUID::NimBLEUUID(uint16_t uuid) {
m_uuid.u.type = BLE_UUID_TYPE_16;
m_uuid.u16.value = uuid;
} // NimBLEUUID(uint16_t uuid)
/**
* @brief Create a UUID from the 32bit value.
* @param [in] uuid The 32bit short form UUID.
*/
NimBLEUUID::NimBLEUUID(uint32_t uuid) {
m_uuid.u.type = BLE_UUID_TYPE_32;
m_uuid.u32.value = uuid;
} // NimBLEUUID(uint32_t uuid)
/**
* @brief Create a UUID from the native UUID.
* @param [in] uuid The native UUID.
*/
NimBLEUUID::NimBLEUUID(const ble_uuid128_t* uuid) {
m_uuid.u.type = BLE_UUID_TYPE_128;
memcpy(m_uuid.u128.value, uuid->value, 16);
} // NimBLEUUID(const ble_uuid128_t* uuid)
/**
* @brief Create a UUID from the 128bit value using hex parts instead of string,
* instead of NimBLEUUID("ebe0ccb0-7a0a-4b0c-8a1a-6ff2997da3a6"), it becomes
* NimBLEUUID(0xebe0ccb0, 0x7a0a, 0x4b0c, 0x8a1a6ff2997da3a6)
*
* @param [in] first The first 32bit of the UUID.
* @param [in] second The next 16bit of the UUID.
* @param [in] third The next 16bit of the UUID.
* @param [in] fourth The last 64bit of the UUID, combining the last 2 parts of the string equivalent
*/
NimBLEUUID::NimBLEUUID(uint32_t first, uint16_t second, uint16_t third, uint64_t fourth) {
m_uuid.u.type = BLE_UUID_TYPE_128;
memcpy(m_uuid.u128.value + 12, &first, 4);
memcpy(m_uuid.u128.value + 10, &second, 2);
memcpy(m_uuid.u128.value + 8, &third, 2);
memcpy(m_uuid.u128.value, &fourth, 8);
} // NimBLEUUID(uint32_t first, uint16_t second, uint16_t third, uint64_t fourth)
/**
* @brief Get the bit size of the UUID, 16, 32 or 128.
* @return The bit size of the UUID or 0 if not initialized.
*/
uint8_t NimBLEUUID::bitSize() const {
return this->m_uuid.u.type;
} // bitSize
/**
* @brief Get the uuid value.
* @return A pointer to the UUID value or nullptr if not initialized.
* @note This should be checked with `bitSize()` before accessing.
*/
const uint8_t* NimBLEUUID::getValue() const {
switch (bitSize()) {
case BLE_UUID_TYPE_16:
return reinterpret_cast<const uint8_t*>(&m_uuid.u16.value);
case BLE_UUID_TYPE_32:
return reinterpret_cast<const uint8_t*>(&m_uuid.u32.value);
case BLE_UUID_TYPE_128:
return m_uuid.u128.value;
default:
return nullptr;
}
} // getValue
/**
* @brief Get a pointer to the NimBLE UUID base structure.
* @return A Read-only pointer to the NimBLE UUID base structure.
* @note The type value should be checked, if no 16, 32 or 128 then the UUID is not initialized.
*/
const ble_uuid_t* NimBLEUUID::getBase() const {
return &this->m_uuid.u;
} // getBase
/**
* @brief Compare a UUID against this UUID.
*
* @param [in] uuid The UUID to compare against.
* @return True if the UUIDs are equal and false otherwise.
*/
bool NimBLEUUID::equals(const NimBLEUUID& uuid) const {
return *this == uuid;
} // equals
/**
* Create a NimBLEUUID from a string of the form:
* 0xNNNN
* 0xNNNNNNNN
* 0x<UUID\>
* NNNN
* NNNNNNNN
* <UUID\>
*
* @param [in] uuid The string to create the UUID from.
*/
NimBLEUUID NimBLEUUID::fromString(const std::string& uuid) {
uint8_t start = 0;
if (strstr(uuid.c_str(), "0x") != nullptr) { // If the string starts with 0x, skip those characters.
start = 2;
}
uint8_t len = uuid.length() - start; // Calculate the length of the string we are going to use.
if (len == 4) {
uint16_t x = strtoul(uuid.substr(start, len).c_str(), NULL, 16);
return NimBLEUUID(x);
} else if (len == 8) {
uint32_t x = strtoul(uuid.substr(start, len).c_str(), NULL, 16);
return NimBLEUUID(x);
} else if (len == 36) {
return NimBLEUUID(uuid);
}
return NimBLEUUID();
} // fromString
/**
* @brief Convert a UUID to its 128 bit representation.
* @details A UUID can be internally represented as 16bit, 32bit or the full 128bit.
* This method will convert 16 or 32bit representations to the full 128bit.
* @return The NimBLEUUID converted to 128bit.
*/
const NimBLEUUID& NimBLEUUID::to128() {
// If we either don't have a value or are already a 128 bit UUID, nothing further to do.
if (bitSize() != BLE_UUID_TYPE_128) {
uint32_t val = bitSize() == BLE_UUID_TYPE_16 ? *reinterpret_cast<const uint16_t*>(getValue())
: *reinterpret_cast<const uint32_t*>(getValue());
memcpy(m_uuid.u128.value, &ble_base_uuid, sizeof(ble_base_uuid) - 4);
memcpy(m_uuid.u128.value + 12, &val, 4);
m_uuid.u.type = BLE_UUID_TYPE_128;
}
return *this;
} // to128
/**
* @brief Convert 128 bit UUID to its 16 bit representation.
* @details A UUID can be internally represented as 16bit, 32bit or the full 128bit.
* This method will convert a 128bit uuid to 16bit if it contains the ble base uuid.
* @return The NimBLEUUID converted to 16bit if successful, otherwise the original uuid.
*/
const NimBLEUUID& NimBLEUUID::to16() {
if (bitSize() == BLE_UUID_TYPE_128) {
const uint8_t* val = getValue();
if (memcmp(val, ble_base_uuid, sizeof(ble_base_uuid) - 4) == 0) {
m_uuid.u16.value = *reinterpret_cast<const uint16_t*>(val + 12);
m_uuid.u.type = BLE_UUID_TYPE_16;
}
}
return *this;
} // to16
/**
* @brief Get a string representation of the UUID.
* @details
* The format of a string is:
* 01234567 8901 2345 6789 012345678901
* 0000180d-0000-1000-8000-00805f9b34fb
* 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5
*
* @return A string representation of the UUID.
* @deprecated Use std::string() operator instead.
*/
std::string NimBLEUUID::toString() const {
return std::string(*this);
} // toString
/**
* @brief Reverse the byte order of the UUID.
* @return The NimBLEUUID with the byte order reversed.
* @details This is useful when comparing UUIDs or when the advertisement data is reversed.
*/
const NimBLEUUID& NimBLEUUID::reverseByteOrder() {
if (bitSize() == BLE_UUID_TYPE_128) {
std::reverse(m_uuid.u128.value, m_uuid.u128.value + 16);
} else if (bitSize() == BLE_UUID_TYPE_32) {
m_uuid.u32.value = __builtin_bswap32(m_uuid.u32.value);
} else if (bitSize() == BLE_UUID_TYPE_16) {
m_uuid.u16.value = __builtin_bswap16(m_uuid.u16.value);
}
return *this;
} // reverseByteOrder
/**
* @brief Convenience operator to check if this UUID is equal to another.
*/
bool NimBLEUUID::operator==(const NimBLEUUID& rhs) const {
if (!this->bitSize() || !rhs.bitSize()) {
return false;
}
if (this->bitSize() != rhs.bitSize()) {
uint8_t uuid128[sizeof(ble_base_uuid)];
memcpy(uuid128, &ble_base_uuid, sizeof(ble_base_uuid));
if (this->bitSize() == BLE_UUID_TYPE_128) {
memcpy(uuid128 + 12, rhs.getValue(), rhs.bitSize() == BLE_UUID_TYPE_16 ? 2 : 4);
return memcmp(this->getValue(), uuid128, sizeof(ble_base_uuid)) == 0;
} else if (rhs.bitSize() == BLE_UUID_TYPE_128) {
memcpy(uuid128 + 12, getValue(), this->bitSize() == BLE_UUID_TYPE_16 ? 2 : 4);
return memcmp(rhs.getValue(), uuid128, sizeof(ble_base_uuid)) == 0;
} else {
return false;
}
}
if (this->bitSize() == BLE_UUID_TYPE_16) {
return *reinterpret_cast<const uint16_t*>(this->getValue()) == *reinterpret_cast<const uint16_t*>(rhs.getValue());
}
if (this->bitSize() == BLE_UUID_TYPE_32) {
return *reinterpret_cast<const uint32_t*>(this->getValue()) == *reinterpret_cast<const uint32_t*>(rhs.getValue());
}
if (this->bitSize() == BLE_UUID_TYPE_128) {
return memcmp(this->getValue(), rhs.getValue(), 16) == 0;
}
return false;
} // operator==
/**
* @brief Convenience operator to check if this UUID is not equal to another.
*/
bool NimBLEUUID::operator!=(const NimBLEUUID& rhs) const {
return !this->operator==(rhs);
} // operator!=
/**
* @brief Convenience operator to convert this UUID to string representation.
* @details This allows passing NimBLEUUID to functions
* that accept std::string and/or or it's methods as a parameter.
*/
NimBLEUUID::operator std::string() const {
char buf[BLE_UUID_STR_LEN];
return ble_uuid_to_str(&m_uuid.u, buf);
} // operator std::string
# endif /* CONFIG_BT_ENABLED */
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