arduino-esp32/libraries/BLE/src/BLEUUID.cpp

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/*
* BLEUUID.cpp
*
* Created on: Jun 21, 2017
* Author: kolban
*/
#include "sdkconfig.h"
#if defined(CONFIG_BT_ENABLED)
#include <string.h>
#include <sstream>
#include <iomanip>
#include <stdio.h>
#include <assert.h>
#include <stdlib.h>
#include "BLEUUID.h"
#include "esp32-hal-log.h"
/**
* @brief Copy memory from source to target but in reverse order.
*
* When we move memory from one location it is normally:
*
* ```
* [0][1][2]...[n] -> [0][1][2]...[n]
* ```
*
* with this function, it is:
*
* ```
* [0][1][2]...[n] -> [n][n-1][n-2]...[0]
* ```
*
* @param [in] target The target of the copy
* @param [in] source The source of the copy
* @param [in] size The number of bytes to copy
*/
static void memrcpy(uint8_t* target, uint8_t* source, uint32_t size) {
assert(size > 0);
target += (size - 1); // Point target to the last byte of the target data
while (size > 0) {
*target = *source;
target--;
source++;
size--;
}
} // memrcpy
/**
* @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.
*/
BLEUUID::BLEUUID(std::string value) {
m_valueSet = true;
if (value.length() == 4) {
m_uuid.len = ESP_UUID_LEN_16;
m_uuid.uuid.uuid16 = 0;
for(int i=0;i<value.length();){
uint8_t MSB = value.c_str()[i];
uint8_t LSB = value.c_str()[i+1];
if(MSB > '9') MSB -= 7;
if(LSB > '9') LSB -= 7;
m_uuid.uuid.uuid16 += (((MSB&0x0F) <<4) | (LSB & 0x0F))<<(2-i)*4;
i+=2;
}
}
else if (value.length() == 8) {
m_uuid.len = ESP_UUID_LEN_32;
m_uuid.uuid.uuid32 = 0;
for(int i=0;i<value.length();){
uint8_t MSB = value.c_str()[i];
uint8_t LSB = value.c_str()[i+1];
if(MSB > '9') MSB -= 7;
if(LSB > '9') LSB -= 7;
m_uuid.uuid.uuid32 += (((MSB&0x0F) <<4) | (LSB & 0x0F))<<(6-i)*4;
i+=2;
}
}
else if (value.length() == 16) { // how we can have 16 byte length string reprezenting 128 bit uuid??? needs to be investigated (lack of time)
m_uuid.len = ESP_UUID_LEN_128;
memrcpy(m_uuid.uuid.uuid128, (uint8_t*)value.data(), 16);
}
else if (value.length() == 36) {
// If the length of the string is 36 bytes then we will assume it is a long hex string in
// UUID format.
m_uuid.len = ESP_UUID_LEN_128;
int n = 0;
for(int i=0;i<value.length();){
if(value.c_str()[i] == '-')
i++;
uint8_t MSB = value.c_str()[i];
uint8_t LSB = value.c_str()[i+1];
if(MSB > '9') MSB -= 7;
if(LSB > '9') LSB -= 7;
m_uuid.uuid.uuid128[15-n++] = ((MSB&0x0F) <<4) | (LSB & 0x0F);
i+=2;
}
}
else {
log_e("ERROR: UUID value not 2, 4, 16 or 36 bytes");
m_valueSet = false;
}
} //BLEUUID(std::string)
/**
* @brief Create a UUID from 16 bytes of memory.
*
* @param [in] pData The pointer to the start of the UUID.
* @param [in] size The size of the data.
* @param [in] msbFirst Is the MSB first in pData memory?
*/
BLEUUID::BLEUUID(uint8_t* pData, size_t size, bool msbFirst) {
if (size != 16) {
log_e("ERROR: UUID length not 16 bytes");
return;
}
m_uuid.len = ESP_UUID_LEN_128;
if (msbFirst) {
memrcpy(m_uuid.uuid.uuid128, pData, 16);
} else {
memcpy(m_uuid.uuid.uuid128, pData, 16);
}
m_valueSet = true;
} // BLEUUID
/**
* @brief Create a UUID from the 16bit value.
*
* @param [in] uuid The 16bit short form UUID.
*/
BLEUUID::BLEUUID(uint16_t uuid) {
m_uuid.len = ESP_UUID_LEN_16;
m_uuid.uuid.uuid16 = uuid;
m_valueSet = true;
} // BLEUUID
/**
* @brief Create a UUID from the 32bit value.
*
* @param [in] uuid The 32bit short form UUID.
*/
BLEUUID::BLEUUID(uint32_t uuid) {
m_uuid.len = ESP_UUID_LEN_32;
m_uuid.uuid.uuid32 = uuid;
m_valueSet = true;
} // BLEUUID
/**
* @brief Create a UUID from the native UUID.
*
* @param [in] uuid The native UUID.
*/
BLEUUID::BLEUUID(esp_bt_uuid_t uuid) {
m_uuid = uuid;
m_valueSet = true;
} // BLEUUID
/**
* @brief Create a UUID from the ESP32 esp_gat_id_t.
*
* @param [in] gattId The data to create the UUID from.
*/
BLEUUID::BLEUUID(esp_gatt_id_t gattId) : BLEUUID(gattId.uuid) {
} // BLEUUID
BLEUUID::BLEUUID() {
m_valueSet = false;
} // BLEUUID
/**
* @brief Get the number of bits in this uuid.
* @return The number of bits in the UUID. One of 16, 32 or 128.
*/
uint8_t BLEUUID::bitSize() {
if (!m_valueSet) return 0;
switch (m_uuid.len) {
case ESP_UUID_LEN_16:
return 16;
case ESP_UUID_LEN_32:
return 32;
case ESP_UUID_LEN_128:
return 128;
default:
log_e("Unknown UUID length: %d", m_uuid.len);
return 0;
} // End of switch
} // bitSize
/**
* @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 BLEUUID::equals(BLEUUID uuid) {
//log_d("Comparing: %s to %s", toString().c_str(), uuid.toString().c_str());
if (!m_valueSet || !uuid.m_valueSet) return false;
if (uuid.m_uuid.len != m_uuid.len) {
return uuid.toString() == toString();
}
if (uuid.m_uuid.len == ESP_UUID_LEN_16) {
return uuid.m_uuid.uuid.uuid16 == m_uuid.uuid.uuid16;
}
if (uuid.m_uuid.len == ESP_UUID_LEN_32) {
return uuid.m_uuid.uuid.uuid32 == m_uuid.uuid.uuid32;
}
return memcmp(uuid.m_uuid.uuid.uuid128, m_uuid.uuid.uuid128, 16) == 0;
} // equals
/**
* Create a BLEUUID from a string of the form:
* 0xNNNN
* 0xNNNNNNNN
* 0x<UUID>
* NNNN
* NNNNNNNN
* <UUID>
*/
BLEUUID BLEUUID::fromString(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 BLEUUID(x);
} else if (len == 8) {
uint32_t x = strtoul(_uuid.substr(start, len).c_str(), NULL, 16);
return BLEUUID(x);
} else if (len == 36) {
return BLEUUID(_uuid);
}
return BLEUUID();
} // fromString
/**
* @brief Get the native UUID value.
*
* @return The native UUID value or NULL if not set.
*/
esp_bt_uuid_t* BLEUUID::getNative() {
//log_d(">> getNative()")
if (m_valueSet == false) {
log_v("<< Return of un-initialized UUID!");
return nullptr;
}
//log_d("<< getNative()");
return &m_uuid;
} // getNative
/**
* @brief Convert a UUID to its 128 bit representation.
*
* A UUID can be internally represented as 16bit, 32bit or the full 128bit. This method
* will convert 16 or 32 bit representations to the full 128bit.
*/
BLEUUID BLEUUID::to128() {
//log_v(">> toFull() - %s", toString().c_str());
// If we either don't have a value or are already a 128 bit UUID, nothing further to do.
if (!m_valueSet || m_uuid.len == ESP_UUID_LEN_128) {
return *this;
}
// If we are 16 bit or 32 bit, then set the 4 bytes of the variable part of the UUID.
if (m_uuid.len == ESP_UUID_LEN_16) {
uint16_t temp = m_uuid.uuid.uuid16;
m_uuid.uuid.uuid128[15] = 0;
m_uuid.uuid.uuid128[14] = 0;
m_uuid.uuid.uuid128[13] = (temp >> 8) & 0xff;
m_uuid.uuid.uuid128[12] = temp & 0xff;
}
else if (m_uuid.len == ESP_UUID_LEN_32) {
uint32_t temp = m_uuid.uuid.uuid32;
m_uuid.uuid.uuid128[15] = (temp >> 24) & 0xff;
m_uuid.uuid.uuid128[14] = (temp >> 16) & 0xff;
m_uuid.uuid.uuid128[13] = (temp >> 8) & 0xff;
m_uuid.uuid.uuid128[12] = temp & 0xff;
}
// Set the fixed parts of the UUID.
m_uuid.uuid.uuid128[11] = 0x00;
m_uuid.uuid.uuid128[10] = 0x00;
m_uuid.uuid.uuid128[9] = 0x10;
m_uuid.uuid.uuid128[8] = 0x00;
m_uuid.uuid.uuid128[7] = 0x80;
m_uuid.uuid.uuid128[6] = 0x00;
m_uuid.uuid.uuid128[5] = 0x00;
m_uuid.uuid.uuid128[4] = 0x80;
m_uuid.uuid.uuid128[3] = 0x5f;
m_uuid.uuid.uuid128[2] = 0x9b;
m_uuid.uuid.uuid128[1] = 0x34;
m_uuid.uuid.uuid128[0] = 0xfb;
m_uuid.len = ESP_UUID_LEN_128;
//log_d("<< toFull <- %s", toString().c_str());
return *this;
} // to128
/**
* @brief Get a string representation of the UUID.
*
* 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.
*/
std::string BLEUUID::toString() {
if (!m_valueSet) return "<NULL>"; // If we have no value, nothing to format.
// If the UUIDs are 16 or 32 bit, pad correctly.
if (m_uuid.len == ESP_UUID_LEN_16) { // If the UUID is 16bit, pad correctly.
char hex[5];
snprintf(hex, sizeof(hex), "%04x", m_uuid.uuid.uuid16);
return std::string(hex) + "-0000-1000-8000-00805f9b34fb";
} // End 16bit UUID
if (m_uuid.len == ESP_UUID_LEN_32) { // If the UUID is 32bit, pad correctly.
char hex[9];
snprintf(hex, sizeof(hex), "%08x", m_uuid.uuid.uuid32);
return std::string(hex) + "-0000-1000-8000-00805f9b34fb";
} // End 32bit UUID
// The UUID is not 16bit or 32bit which means that it is 128bit.
//
// UUID string format:
// AABBCCDD-EEFF-GGHH-IIJJ-KKLLMMNNOOPP
auto size = 35;
char *hex = (char *)malloc(size);
snprintf(hex, size, "%02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x",
m_uuid.uuid.uuid128[15], m_uuid.uuid.uuid128[14],
m_uuid.uuid.uuid128[13], m_uuid.uuid.uuid128[12],
m_uuid.uuid.uuid128[11], m_uuid.uuid.uuid128[10],
m_uuid.uuid.uuid128[9], m_uuid.uuid.uuid128[8],
m_uuid.uuid.uuid128[7], m_uuid.uuid.uuid128[6],
m_uuid.uuid.uuid128[5], m_uuid.uuid.uuid128[4],
m_uuid.uuid.uuid128[3], m_uuid.uuid.uuid128[2],
m_uuid.uuid.uuid128[1], m_uuid.uuid.uuid128[0]);
std::string res(hex);
free(hex);
return res;
} // toString
#endif /* CONFIG_BT_ENABLED */