mbed client on ethernet with LWIP
Dependencies: mbed Socket lwip-eth lwip-sys lwip
Fork of mbed-client-classic-example-lwip by
nanostack-libservice/mbed-client-libservice/common_functions.h
- Committer:
- mbedAustin
- Date:
- 2016-06-09
- Revision:
- 11:cada08fc8a70
File content as of revision 11:cada08fc8a70:
/* * Copyright (c) 2014-2015 ARM Limited. All rights reserved. * SPDX-License-Identifier: Apache-2.0 * 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. */ #ifndef COMMON_FUNCTIONS_H_ #define COMMON_FUNCTIONS_H_ #include "ns_types.h" #ifdef __cplusplus extern "C" { #endif /* * Common write 64-bit variable to 8-bit pointer. * * Write 64 bits in big-endian (network) byte order. * * \param value 64-bit variable * \param ptr pointer where data to be written * * \return updated pointer */ NS_INLINE uint8_t *common_write_64_bit(uint64_t value, uint8_t ptr[__static 8]); /* * Common read 64-bit variable from 8-bit pointer. * * Read 64 bits in big-endian (network) byte order. * * \param data_buf pointer where data to be read * * \return 64-bit variable */ NS_INLINE uint64_t common_read_64_bit(const uint8_t data_buf[__static 8]); /* * Common write 32-bit variable to 8-bit pointer. * * Write 32 bits in big-endian (network) byte order. * * \param value 32-bit variable * \param ptr pointer where data to be written * * \return updated pointer */ NS_INLINE uint8_t *common_write_32_bit(uint32_t value, uint8_t ptr[__static 4]); /* * Common read 32-bit variable from 8-bit pointer. * * Read 32 bits in big-endian (network) byte order. * * \param data_buf pointer where data to be read * * \return 32-bit variable */ NS_INLINE uint32_t common_read_32_bit(const uint8_t data_buf[__static 4]); /* * Common write 32-bit variable to 8-bit pointer. * * Write 32 bits in little-endian byte order. * * \param value 32-bit variable * \param ptr pointer where data to be written * * \return updated pointer */ NS_INLINE uint8_t *common_write_32_bit_inverse(uint32_t value, uint8_t ptr[__static 4]); /* * Common read 32-bit variable from 8-bit pointer. * * Read 32 bits in little-endian byte order. * * \param data_buf pointer where data to be read * * \return 32-bit variable */ NS_INLINE uint32_t common_read_32_bit_inverse(const uint8_t data_buf[__static 4]); /* * Common write 24-bit variable to 8-bit pointer. * * Write 24 bits in big-endian (network) byte order. * * \param value 24-bit variable * \param ptr pointer where data to be written * * \return updated pointer */ NS_INLINE uint8_t *common_write_24_bit(uint_fast24_t value, uint8_t ptr[__static 3]); /* * Common read 24-bit variable from 8-bit pointer. * * Read 24 bits in big-endian (network) byte order. * * \param data_buf pointer where data to be read * * \return 24-bit variable */ NS_INLINE uint_fast24_t common_read_24_bit(const uint8_t data_buf[__static 3]); /* * Common write 16-bit variable to 8-bit pointer. * * Write 16 bits in big-endian (network) byte order. * * \param value 16-bit variable * \param ptr pointer where data to be written * * \return updated pointer */ NS_INLINE uint8_t *common_write_16_bit(uint16_t value, uint8_t ptr[__static 2]); /* * Common read 16-bit variable from 8-bit pointer. * * Read 16 bits in big-endian (network) byte order. * * \param data_buf pointer where data to be read * * \return 16-bit variable */ NS_INLINE uint16_t common_read_16_bit(const uint8_t data_buf[__static 2]); /* * Common write 16-bit variable to 8-bit pointer. * * Write 16 bits in little-endian byte order. * * \param value 16-bit variable * \param ptr pointer where data to be written * * \return updated pointer */ NS_INLINE uint8_t *common_write_16_bit_inverse(uint16_t value, uint8_t ptr[__static 2]); /* * Count bits in a byte * * \param byte byte to inspect * * \return number of 1-bits in byte */ NS_INLINE uint_fast8_t common_count_bits(uint8_t byte); /* * Count leading zeros in a byte * * \param byte byte to inspect * * \return number of leading zeros in byte (0-8) */ NS_INLINE uint_fast8_t common_count_leading_zeros(uint8_t byte); /* * Compare 8-bit serial numbers * * Compare two 8-bit serial numbers, according to RFC 1982 Serial Number * Arithmetic. * * \param s1 first serial number * \param s2 second serial number * * \return true if s1 > s2 * \return false if s1 <= s2, or the comparison is undefined */ NS_INLINE bool common_serial_number_greater_8(uint8_t s1, uint8_t s2); /* * Compare 16-bit serial numbers * * Compare two 16-bit serial numbers, according to RFC 1982 Serial Number * Arithmetic. * * \param s1 first serial number * \param s2 second serial number * * \return true if s1 > s2 * \return false if s1 <= s2, or the comparison is undefined */ NS_INLINE bool common_serial_number_greater_16(uint16_t s1, uint16_t s2); /* * Compare 32-bit serial numbers * * Compare two 32-bit serial numbers, according to RFC 1982 Serial Number * Arithmetic. * * \param s1 first serial number * \param s2 second serial number * * \return true if s1 > s2 * \return false if s1 <= s2, or the comparison is undefined */ NS_INLINE bool common_serial_number_greater_32(uint32_t s1, uint32_t s2); /* * Test a bit in an bit array. * * Check whether a particular bit is set in a bit string. The bit array * is in big-endian (network) bit order. * * \param bitset pointer to bit array * \param bit index of bit - 0 is the most significant bit of the first byte * * \return true if the bit is set */ NS_INLINE bool bit_test(const uint8_t *bitset, uint_fast8_t bit); /* * Set a bit in an bit array. * * Set a bit in a bit array. The array is in big-endian (network) bit order. * * \param bitset pointer to bit array * \param bit index of bit - 0 is the most significant bit of the first byte */ NS_INLINE void bit_set(uint8_t *bitset, uint_fast8_t bit); /* * Clear a bit in an bit array. * * Clear a bit in a bit array. The bit array is in big-endian (network) bit order. * * \param bitset pointer to bit array * \param bit index of bit - 0 is the most significant bit of the first byte */ NS_INLINE void bit_clear(uint8_t *bitset, uint_fast8_t bit); /* * Compare two bitstrings. * * Compare two bitstrings of specified length. The bit strings are in * big-endian (network) bit order. * * \param a pointer to first string * \param b pointer to second string * \param bits number of bits to compare * * \return true if the strings compare equal */ bool bitsequal(const uint8_t *a, const uint8_t *b, uint_fast8_t bits); /* * Copy a bitstring * * Copy a bitstring of specified length. The bit string is in big-endian * (network) bit order. Bits beyond the bitlength at the destination are not * modified. * * For example, copying 4 bits sets the first 4 bits of dst[0] from src[0], * the lower 4 bits of dst[0] are unmodified. * * \param dst destination pointer * \param src source pointer * \param bits number of bits to copy * * \return the value of dst */ uint8_t *bitcopy(uint8_t *restrict dst, const uint8_t *restrict src, uint_fast8_t bits); /* * Copy a bitstring and pad last byte with zeros * * Copy a bitstring of specified length. The bit string is in big-endian * (network) bit order. Bits beyond the bitlength in the last destination byte are * zeroed. * * For example, copying 4 bits sets the first 4 bits of dst[0] from src[0], and * the lower 4 bits of dst[0] are set to 0. * * \param dst destination pointer * \param src source pointer * \param bits number of bits to copy * * \return the value of dst */ uint8_t *bitcopy0(uint8_t *restrict dst, const uint8_t *restrict src, uint_fast8_t bits); /* Provide definitions, either for inlining, or for common_functions.c */ #if defined NS_ALLOW_INLINING || defined COMMON_FUNCTIONS_FN #ifndef COMMON_FUNCTIONS_FN #define COMMON_FUNCTIONS_FN NS_INLINE #endif COMMON_FUNCTIONS_FN uint8_t *common_write_64_bit(uint64_t value, uint8_t ptr[__static 8]) { *ptr++ = value >> 56; *ptr++ = value >> 48; *ptr++ = value >> 40; *ptr++ = value >> 32; *ptr++ = value >> 24; *ptr++ = value >> 16; *ptr++ = value >> 8; *ptr++ = value; return ptr; } COMMON_FUNCTIONS_FN uint64_t common_read_64_bit(const uint8_t data_buf[__static 8]) { uint64_t temp_64; temp_64 = (uint64_t)(*data_buf++) << 56; temp_64 += (uint64_t)(*data_buf++) << 48; temp_64 += (uint64_t)(*data_buf++) << 40; temp_64 += (uint64_t)(*data_buf++) << 32; temp_64 += (uint64_t)(*data_buf++) << 24; temp_64 += (uint64_t)(*data_buf++) << 16; temp_64 += (uint64_t)(*data_buf++) << 8; temp_64 += *data_buf++; return temp_64; } COMMON_FUNCTIONS_FN uint8_t *common_write_32_bit(uint32_t value, uint8_t ptr[__static 4]) { *ptr++ = value >> 24; *ptr++ = value >> 16; *ptr++ = value >> 8; *ptr++ = value; return ptr; } COMMON_FUNCTIONS_FN uint32_t common_read_32_bit(const uint8_t data_buf[__static 4]) { uint32_t temp_32; temp_32 = (uint32_t)(*data_buf++) << 24; temp_32 += (uint32_t)(*data_buf++) << 16; temp_32 += (uint32_t)(*data_buf++) << 8; temp_32 += *data_buf++; return temp_32; } COMMON_FUNCTIONS_FN uint8_t *common_write_32_bit_inverse(uint32_t value, uint8_t ptr[__static 4]) { *ptr++ = value; *ptr++ = value >> 8; *ptr++ = value >> 16; *ptr++ = value >> 24; return ptr; } COMMON_FUNCTIONS_FN uint32_t common_read_32_bit_inverse(const uint8_t data_buf[__static 4]) { uint32_t temp_32; temp_32 = *data_buf++; temp_32 += (uint32_t)(*data_buf++) << 8; temp_32 += (uint32_t)(*data_buf++) << 16; temp_32 += (uint32_t)(*data_buf++) << 24; return temp_32; } COMMON_FUNCTIONS_FN uint8_t *common_write_24_bit(uint_fast24_t value, uint8_t ptr[__static 3]) { *ptr++ = value >> 16; *ptr++ = value >> 8; *ptr++ = value; return ptr; } COMMON_FUNCTIONS_FN uint_fast24_t common_read_24_bit(const uint8_t data_buf[__static 3]) { uint_fast24_t temp_24; temp_24 = (uint_fast24_t)(*data_buf++) << 16; temp_24 += (uint_fast24_t)(*data_buf++) << 8; temp_24 += *data_buf++; return temp_24; } COMMON_FUNCTIONS_FN uint8_t *common_write_16_bit(uint16_t value, uint8_t ptr[__static 2]) { *ptr++ = value >> 8; *ptr++ = value; return ptr; } COMMON_FUNCTIONS_FN uint16_t common_read_16_bit(const uint8_t data_buf[__static 2]) { uint16_t temp_16; temp_16 = (uint16_t)(*data_buf++) << 8; temp_16 += *data_buf++; return temp_16; } COMMON_FUNCTIONS_FN uint8_t *common_write_16_bit_inverse(uint16_t value, uint8_t ptr[__static 2]) { *ptr++ = value; *ptr++ = value >> 8; return ptr; } COMMON_FUNCTIONS_FN uint_fast8_t common_count_bits(uint8_t byte) { /* First step sets each bit pair to be count of bits (00,01,10) */ /* [00-00 = 00, 01-00 = 01, 10-01 = 01, 11-01 = 10] */ uint_fast8_t count = byte - ((byte >> 1) & 0x55); /* Add bit pairs to make each nibble contain count of bits (0-4) */ count = (count & 0x33) + ((count >> 2) & 0x33); /* Final result is sum of nibbles (0-8) */ count = (count >> 4) + (count & 0x0F); return count; } COMMON_FUNCTIONS_FN uint_fast8_t common_count_leading_zeros(uint8_t byte) { #ifdef __CC_ARM return byte ? __clz((unsigned int) byte << 24) : 8; #elif defined __GNUC__ return byte ? __builtin_clz((unsigned int) byte << 24) : 8; #else uint_fast8_t cnt = 0; if (byte == 0) { return 8; } if ((byte & 0xF0) == 0) { byte <<= 4; cnt += 4; } if ((byte & 0xC0) == 0) { byte <<= 2; cnt += 2; } if ((byte & 0x80) == 0) { cnt += 1; } return cnt; #endif } COMMON_FUNCTIONS_FN bool common_serial_number_greater_8(uint8_t s1, uint8_t s2) { return (s1 > s2 && s1 - s2 < UINT8_C(0x80)) || (s1 < s2 && s2 - s1 > UINT8_C(0x80)); } COMMON_FUNCTIONS_FN bool common_serial_number_greater_16(uint16_t s1, uint16_t s2) { return (s1 > s2 && s1 - s2 < UINT16_C(0x8000)) || (s1 < s2 && s2 - s1 > UINT16_C(0x8000)); } COMMON_FUNCTIONS_FN bool common_serial_number_greater_32(uint32_t s1, uint32_t s2) { return (s1 > s2 && s1 - s2 < UINT32_C(0x80000000)) || (s1 < s2 && s2 - s1 > UINT32_C(0x80000000)); } COMMON_FUNCTIONS_FN bool bit_test(const uint8_t *bitset, uint_fast8_t bit) { return bitset[bit >> 3] & (0x80 >> (bit & 7)); } COMMON_FUNCTIONS_FN void bit_set(uint8_t *bitset, uint_fast8_t bit) { bitset[bit >> 3] |= (0x80 >> (bit & 7)); } COMMON_FUNCTIONS_FN void bit_clear(uint8_t *bitset, uint_fast8_t bit) { bitset[bit >> 3] &= ~(0x80 >> (bit & 7)); } #endif /* defined NS_ALLOW_INLINING || defined COMMON_FUNCTIONS_FN */ #ifdef __cplusplus } #endif #endif /*__COMMON_FUNCTIONS_H_*/