Functions that provide access to cyclic redundancy code (CRC) calculation. See
crc.h
for source code.
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uint16_t
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halCommonCrc16
(uint8_t newByte, uint16_t prevResult)
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Calculates 16-bit cyclic redundancy code (CITT CRC 16).
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uint32_t
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halCommonCrc32
(uint8_t newByte, uint32_t prevResult)
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Calculates 32-bit cyclic redundancy code.
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Functions that provide access to cyclic redundancy code (CRC) calculation. See
crc.h
for source code.
◆
CRC32_END
#define CRC32_END 0xDEBB20E3L
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◆
CRC32_START
◆
INITIAL_CRC
#define INITIAL_CRC 0xFFFFFFFFL
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◆
halCommonCrc16()
uint16_t halCommonCrc16
|
(
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uint8_t
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newByte,
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uint16_t
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prevResult
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)
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Calculates 16-bit cyclic redundancy code (CITT CRC 16).
Applies the standard CITT CRC 16 polynomial to a single byte. It should support being called first with an initial value, then repeatedly until all data is processed.
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Parameters
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newByte
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The new byte to be run through CRC.
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prevResult
|
The previous CRC result.
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-
Returns
-
The new CRC result.
◆
halCommonCrc32()
uint32_t halCommonCrc32
|
(
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uint8_t
|
newByte,
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|
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uint32_t
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prevResult
|
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)
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Calculates 32-bit cyclic redundancy code.
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Note
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On some radios or micros, the CRC for error detection on packet data is calculated in hardware.
Applies a CRC32 polynomial to a single byte. It should support being called first with an initial value, then repeatedly until all data is processed.
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Parameters
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newByte
|
The new byte to be run through CRC.
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prevResult
|
The previous CRC result.
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-
Returns
-
The new CRC result.