Exemplo n.º 1
0
def combine_rewards(rewardsList,cycle, badgerTree):
    totals = RewardsList(cycle,badgerTree)
    for rewards in rewardsList:
        for user,claims in rewards.claims.items():
            for token,claim in claims.items():
                totals.increase_user_rewards(user,token,claim)
    return totals
Exemplo n.º 2
0
def process_sushi_events(badger,startBlock,endBlock,events,name,nextCycle):
    xSushiTokenAddress = "0x8798249c2e607446efb7ad49ec89dd1865ff4272"
    start = startBlock
    end = int(events[0]["blockNumber"])
    totalHarvested = 0
    rewards = RewardsList(nextCycle,badger.badgerTree)
    for i in tqdm(range(len(events))):
        xSushiRewards = int(events[i]["toBadgerTree"])
        user_state = calc_meta_farm_rewards(badger,name,start,end)
        console.log("Processing between blocks {} and {}, distributing {} to users".format(
            start,
            end,
            xSushiRewards/1e18
        ))
        totalHarvested += xSushiRewards/1e18
        console.print("{} total xSushi processed".format(totalHarvested))
        totalShareSeconds = sum([u.shareSeconds for u in user_state])
        xSushiUnit = xSushiRewards/totalShareSeconds
        for user in user_state:
            rewards.increase_user_rewards(web3.toChecksumAddress(user.address),web3.toChecksumAddress(xSushiTokenAddress),xSushiUnit * user.shareSeconds)
            rewardsLogger.add_user_share_seconds(user.address,name,user.shareSeconds)
            rewardsLogger.add_user_token(user.address,name,xSushiTokenAddress,xSushiUnit * user.shareSeconds)

        if i+1 < len(events):
           start = int(events[i]["blockNumber"])
           end = int(events[i+1]["blockNumber"])
    totalXSushi = sum([list(v.values())[0]/1e18 for v in list(rewards.claims.values())  ])
    distr = {}
    distr[xSushiTokenAddress] = totalXSushi
    rewardsLogger.add_distribution_info(name,distr)
    return rewards
Exemplo n.º 3
0
def combine_rewards(list, cycle, badgerTree):
    totals = RewardsList(cycle, badgerTree)
    total = 0
    # For each rewards list entry
    for key, rewardsSet in list.items():
        # Get the claims data
        # claims = rewardsSet["claims"]
        for user, userData in rewardsSet.claims.items():
            # For each token
            for token, tokenAmount in userData.items():
                totals.increase_user_rewards(user, token, tokenAmount)
                total += tokenAmount
    totals.badgerSum = total
    # totals.printState()
    return totals
Exemplo n.º 4
0
def process_cumulative_rewards(current, new: RewardsList):
    result = RewardsList(new.cycle, new.badgerTree)

    # Add new rewards
    for user, claims in new.claims.items():
        for token, claim in claims.items():
            result.increase_user_rewards(user, token, claim)

    # Add existing rewards
    for user, userData in current["claims"].items():
        for i in range(len(userData["tokens"])):
            token = userData["tokens"][i]
            amount = userData["cumulativeAmounts"][i]
            result.increase_user_rewards(user, token, int(amount))

    # result.printState()
    return result
Exemplo n.º 5
0
def fetch_current_harvest_rewards(badger, startBlock, endBlock, nextCycle):
    farmTokenAddress = "0xa0246c9032bC3A600820415aE600c6388619A14D"
    harvestEvents = fetch_harvest_farm_events()
    rewards = RewardsList(nextCycle, badger.badgerTree)

    def filter_events(e):
        return int(e["blockNumber"]) > startBlock and int(
            e["blockNumber"]) < endBlock

    unprocessedEvents = list(filter(filter_events, harvestEvents))
    console.log("Processing {} farm events".format(len(unprocessedEvents)))

    if len(unprocessedEvents) == 0:
        return rewards

    start = get_latest_event_block(unprocessedEvents[0], harvestEvents)
    end = int(unprocessedEvents[0]["blockNumber"])
    totalHarvested = 0
    for i in tqdm(range(len(unprocessedEvents))):
        console.log("Processing between {} and {}".format(
            startBlock, endBlock))
        harvestEvent = unprocessedEvents[i]
        user_state = calc_meta_farm_rewards(badger, "harvest.renCrv", start,
                                            end)
        farmRewards = int(harvestEvent["farmToRewards"])
        console.print("Processing block {}, distributing {} to users".format(
            harvestEvent["blockNumber"],
            farmRewards / 1e18,
        ))
        totalHarvested += farmRewards / 1e18
        console.print("{} total FARM processed".format(totalHarvested))
        totalShareSeconds = sum([u.shareSeconds for u in user_state])
        farmUnit = farmRewards / totalShareSeconds
        for user in user_state:
            rewards.increase_user_rewards(
                user.address, web3.toChecksumAddress(farmTokenAddress),
                farmUnit * user.shareSeconds)

        if i + 1 < len(unprocessedEvents):
            start = int(unprocessedEvents[i]["blockNumber"])
            end = int(unprocessedEvents[i + 1]["blockNumber"])

    totalFarm = sum(
        [list(v.values())[0] / 1e18 for v in list(rewards.claims.values())])
    return rewards
Exemplo n.º 6
0
def sum_rewards(sources, cycle, badgerTree):
    """
    Sum rewards from all given set of rewards' list, returning a single rewards list
    """
    totals = RewardsList(cycle, badgerTree)
    total = 0
    # For each rewards list entry
    for key, rewardsSet in sources.items():
        # Get the claims data
        claims = rewardsSet["claims"]
        metadata = rewardsSet["metadata"]

        # Add values from each user
        for user, userData in claims.items():
            totals.track_user_metadata(user, metadata)

            # For each token
            for token, tokenAmount in userData.items():
                totals.increase_user_rewards(user, token, tokenAmount)

                total += tokenAmount
    totals.badgerSum = total
    # totals.printState()
    return totals
Exemplo n.º 7
0
def main():
    test = True
    badger = connect_badger(badger_config.prod_json,load_deployer=False)
    farmTokenAddress = "0xa0246c9032bC3A600820415aE600c6388619A14D"
    nextCycle = badger.badgerTree.currentCycle() + 1
    console.log("next cycle: {}".format(nextCycle))
    currentMerkleData = badger.badgerTree.getCurrentMerkleData()
    console.log(currentMerkleData)
    timeSinceLastUpdate = chain.time() - currentMerkleData[2]

    print("Run at", int(time.time()))

    latestBlock = chain.height
    harvestEvents = fetch_harvest_farm_events()
    rewards = RewardsList(nextCycle,badger.badgerTree)
    console.log(rewards.claims)
    settStartBlock = 11376266
    startBlock = settStartBlock
    endBlock = int(harvestEvents[0]["blockNumber"])
    totalHarvested = 0
    for i in tqdm(range(len(harvestEvents))):
        console.log("Processing between {} and {}".format(startBlock,endBlock))
        harvestEvent = harvestEvents[i]
        user_state = calc_meta_farm_rewards(badger,"harvest.renCrv",startBlock,endBlock)
        farmRewards = int(harvestEvent["farmToRewards"])
        console.print("Processing block {}, distributing {} to users".format(
            harvestEvent["blockNumber"],
            farmRewards/1e18,
         ))
        totalHarvested += farmRewards/1e18
        console.print("{} total FARM processed".format(totalHarvested))
        totalShareSeconds = sum([u.shareSeconds for u in user_state])
        farmUnit = farmRewards/totalShareSeconds
        for user in user_state:
            rewards.increase_user_rewards(web3.toChecksumAddress(user.address),farmTokenAddress,farmUnit * user.shareSeconds)
            rewardsLogger.add_user_share_seconds(user.address,"harvest.renCrv",user.shareSeconds)
            rewardsLogger.add_user_token(user.address,"harvest.renCrv",farmTokenAddress,farmUnit* user.shareSeconds)

        rewardsLogger.add_epoch_data(user_state,"harvest.renCrv",farmTokenAddress,farmUnit,i)

        if i+1 < len(harvestEvents):
            startBlock = int(harvestEvent["blockNumber"])
            endBlock = int(harvestEvents[i+1]["blockNumber"])

    claimsHarvested = sum( [list(v.values())[0] for v in list(rewards.claims.values())])
    rewardsLogger.add_distribution_info("harvest.renCrv",{farmTokenAddress:claimsHarvested})
    rewardsLogger.save("retroactive-farm")
    
    currentRewards = fetch_current_rewards_tree(badger)
    cumulative_rewards = process_cumulative_rewards(currentRewards,rewards)

    merkleTree = rewards_to_merkle_tree(cumulative_rewards,settStartBlock,endBlock,{})
    # Upload merkle tree
    rootHash = web3.toHex(web3.keccak(text=merkleTree["merkleRoot"]))
    console.log(rootHash)
    contentFileName = "rewards-" + str(chain.id) + "-" + str(merkleTree["merkleRoot"]) + ".json"
    console.log("Saving merkle tree as {}".format(contentFileName))
    with open(contentFileName,"w") as f:
        json.dump(merkleTree,f,indent=4)


    farmHarvestedMerkleTree = 0
    claims = merkleTree["claims"]

    for user, claim in claims.items():
        if farmTokenAddress in claim["tokens"]:
            token_index = claim["tokens"].index(farmTokenAddress)
            amount = claim["cumulativeAmounts"][token_index]
            console.log("Address {} : {} FARM".format(user,int(float(amount))/1e18))
            farmHarvestedMerkleTree += int(float(amount))
            
    console.log("Total Farm Harvested {}".format(farmHarvestedMerkleTree/1e18))
    console.log("Claims Harvested From Events {}".format(claimsHarvested/1e18))

    console.log("Difference: {}".format((farmHarvestedMerkleTree/1e18) - (claimsHarvested/1e18)))
    difference = farmHarvestedMerkleTree - claimsHarvested
    console.log("Difference: {}".format(farmHarvestedMerkleTree - claimsHarvested))
    console.log(gas_strategy.get_gas_price())
    if abs(difference) < 10000000 and not test:
        badger.badgerTree.proposeRoot(
        merkleTree["merkleRoot"],
        rootHash,
        nextCycle,
        {"from" :badger.keeper,"gas_price":gas_strategy})

        badger.badgerTree.approveRoot(
        merkleTree["merkleRoot"],
        rootHash,
        nextCycle,
        {"from" :badger.keeper,"gas_price":gas_strategy})