43 lines
2.5 KiB
Go
43 lines
2.5 KiB
Go
package btcec
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import secp "github.com/decred/dcrd/dcrec/secp256k1/v4"
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// FieldVal implements optimized fixed-precision arithmetic over the secp256k1
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// finite field. This means all arithmetic is performed modulo
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// '0xfffffffffffffffffffffffffffffffffffffffffffffffffffffffefffffc2f'.
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//
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// WARNING: Since it is so important for the field arithmetic to be extremely
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// fast for high performance crypto, this type does not perform any validation
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// of documented preconditions where it ordinarily would. As a result, it is
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// IMPERATIVE for callers to understand some key concepts that are described
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// below and ensure the methods are called with the necessary preconditions
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// that each method is documented with. For example, some methods only give the
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// correct result if the field value is normalized and others require the field
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// values involved to have a maximum magnitude and THERE ARE NO EXPLICIT CHECKS
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// TO ENSURE THOSE PRECONDITIONS ARE SATISFIED. This does, unfortunately, make
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// the type more difficult to use correctly and while I typically prefer to
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// ensure all state and input is valid for most code, this is a bit of an
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// exception because those extra checks really add up in what ends up being
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// critical hot paths.
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//
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// The first key concept when working with this type is normalization. In order
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// to avoid the need to propagate a ton of carries, the internal representation
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// provides additional overflow bits for each word of the overall 256-bit
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// value. This means that there are multiple internal representations for the
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// same value and, as a result, any methods that rely on comparison of the
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// value, such as equality and oddness determination, require the caller to
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// provide a normalized value.
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//
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// The second key concept when working with this type is magnitude. As
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// previously mentioned, the internal representation provides additional
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// overflow bits which means that the more math operations that are performed
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// on the field value between normalizations, the more those overflow bits
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// accumulate. The magnitude is effectively that maximum possible number of
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// those overflow bits that could possibly be required as a result of a given
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// operation. Since there are only a limited number of overflow bits available,
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// this implies that the max possible magnitude MUST be tracked by the caller
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// and the caller MUST normalize the field value if a given operation would
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// cause the magnitude of the result to exceed the max allowed value.
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//
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// IMPORTANT: The max allowed magnitude of a field value is 64.
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type FieldVal = secp.FieldVal
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