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Apply gamma distr from chain tip when selecting decoys
- matches the paper by Miller et al to apply the gamma from chain tip, rather than after unlock time - if the gamma produces an output more recent than the unlock time, the algo packs that output into one of the first 50 spendable blocks, respecting the block density factor
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@ -144,6 +144,9 @@ using namespace cryptonote;
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#define IGNORE_LONG_PAYMENT_ID_FROM_BLOCK_VERSION 12
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#define DEFAULT_UNLOCK_TIME (CRYPTONOTE_DEFAULT_TX_SPENDABLE_AGE * DIFFICULTY_TARGET_V2)
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#define RECENT_SPEND_WINDOW (50 * DIFFICULTY_TARGET_V2)
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static const std::string MULTISIG_SIGNATURE_MAGIC = "SigMultisigPkV1";
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static const std::string MULTISIG_EXTRA_INFO_MAGIC = "MultisigxV1";
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@ -1028,6 +1031,34 @@ uint64_t gamma_picker::pick()
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{
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double x = gamma(engine);
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x = exp(x);
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if (x > DEFAULT_UNLOCK_TIME)
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{
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// We are trying to select an output from the chain that appeared 'x' seconds before the
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// current chain tip, where 'x' is selected from the gamma distribution recommended in Miller et al.
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// (https://arxiv.org/pdf/1704.04299/).
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// Our method is to get the average time delta between outputs in the recent past, estimate the number of
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// outputs 'n' that would have appeared between 'chain_tip - x' and 'chain_tip', select the real output at
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// 'current_num_outputs - n', then randomly select an output from the block where that output appears.
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// Source code to paper: https://github.com/maltemoeser/moneropaper
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//
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// Due to the 'default spendable age' mechanic in Monero, 'current_num_outputs' only contains
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// currently *unlocked* outputs, which means the earliest output that can be selected is not at the chain tip!
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// Therefore, we must offset 'x' so it matches up with the timing of the outputs being considered. We do
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// this by saying if 'x` equals the expected age of the first unlocked output (compared to the current
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// chain tip - i.e. DEFAULT_UNLOCK_TIME), then select the first unlocked output.
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x -= DEFAULT_UNLOCK_TIME;
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}
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else
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{
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// If the spent time suggested by the gamma is less than the unlock time, that means the gamma is suggesting an output
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// that is no longer feasible to be spent (possible since the gamma was constructed when consensus rules did not enforce the
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// lock time). The assumption made in this code is that an output expected spent quicker than the unlock time would likely
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// be spent within RECENT_SPEND_WINDOW after allowed. So it returns an output that falls between 0 and the RECENT_SPEND_WINDOW.
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// The RECENT_SPEND_WINDOW was determined with empirical analysis of observed data.
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x = crypto::rand_idx(static_cast<uint64_t>(RECENT_SPEND_WINDOW));
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}
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uint64_t output_index = x / average_output_time;
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if (output_index >= num_rct_outputs)
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return std::numeric_limits<uint64_t>::max(); // bad pick
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