What Is Bitcoin Rpc? CryptoCoins Info Club

How to change address labels using RPC methods /r/Bitcoin

How to change address labels using RPC methods /Bitcoin submitted by ABitcoinAllBot to BitcoinAll [link] [comments]

Announcing Bitcoin Cash Node v22.0.0

Announcing Bitcoin Cash Node v22.0.0 submitted by Bagatell_ to Bitcoincash [link] [comments]

Gridcoin 5.0.0.0-Mandatory "Fern" Release

https://github.com/gridcoin-community/Gridcoin-Research/releases/tag/5.0.0.0
Finally! After over ten months of development and testing, "Fern" has arrived! This is a whopper. 240 pull requests merged. Essentially a complete rewrite that was started with the scraper (the "neural net" rewrite) in "Denise" has now been completed. Practically the ENTIRE Gridcoin specific codebase resting on top of the vanilla Bitcoin/Peercoin/Blackcoin vanilla PoS code has been rewritten. This removes the team requirement at last (see below), although there are many other important improvements besides that.
Fern was a monumental undertaking. We had to encode all of the old rules active for the v10 block protocol in new code and ensure that the new code was 100% compatible. This had to be done in such a way as to clear out all of the old spaghetti and ring-fence it with tightly controlled class implementations. We then wrote an entirely new, simplified ruleset for research rewards and reengineered contracts (which includes beacon management, polls, and voting) using properly classed code. The fundamentals of Gridcoin with this release are now on a very sound and maintainable footing, and the developers believe the codebase as updated here will serve as the fundamental basis for Gridcoin's future roadmap.
We have been testing this for MONTHS on testnet in various stages. The v10 (legacy) compatibility code has been running on testnet continuously as it was developed to ensure compatibility with existing nodes. During the last few months, we have done two private testnet forks and then the full public testnet testing for v11 code (the new protocol which is what Fern implements). The developers have also been running non-staking "sentinel" nodes on mainnet with this code to verify that the consensus rules are problem-free for the legacy compatibility code on the broader mainnet. We believe this amount of testing is going to result in a smooth rollout.
Given the amount of changes in Fern, I am presenting TWO changelogs below. One is high level, which summarizes the most significant changes in the protocol. The second changelog is the detailed one in the usual format, and gives you an inkling of the size of this release.

Highlights

Protocol

Note that the protocol changes will not become active until we cross the hard-fork transition height to v11, which has been set at 2053000. Given current average block spacing, this should happen around October 4, about one month from now.
Note that to get all of the beacons in the network on the new protocol, we are requiring ALL beacons to be validated. A two week (14 day) grace period is provided by the code, starting at the time of the transition height, for people currently holding a beacon to validate the beacon and prevent it from expiring. That means that EVERY CRUNCHER must advertise and validate their beacon AFTER the v11 transition (around Oct 4th) and BEFORE October 18th (or more precisely, 14 days from the actual date of the v11 transition). If you do not advertise and validate your beacon by this time, your beacon will expire and you will stop earning research rewards until you advertise and validate a new beacon. This process has been made much easier by a brand new beacon "wizard" that helps manage beacon advertisements and renewals. Once a beacon has been validated and is a v11 protocol beacon, the normal 180 day expiration rules apply. Note, however, that the 180 day expiration on research rewards has been removed with the Fern update. This means that while your beacon might expire after 180 days, your earned research rewards will be retained and can be claimed by advertising a beacon with the same CPID and going through the validation process again. In other words, you do not lose any earned research rewards if you do not stake a block within 180 days and keep your beacon up-to-date.
The transition height is also when the team requirement will be relaxed for the network.

GUI

Besides the beacon wizard, there are a number of improvements to the GUI, including new UI transaction types (and icons) for staking the superblock, sidestake sends, beacon advertisement, voting, poll creation, and transactions with a message. The main screen has been revamped with a better summary section, and better status icons. Several changes under the hood have improved GUI performance. And finally, the diagnostics have been revamped.

Blockchain

The wallet sync speed has been DRASTICALLY improved. A decent machine with a good network connection should be able to sync the entire mainnet blockchain in less than 4 hours. A fast machine with a really fast network connection and a good SSD can do it in about 2.5 hours. One of our goals was to reduce or eliminate the reliance on snapshots for mainnet, and I think we have accomplished that goal with the new sync speed. We have also streamlined the in-memory structures for the blockchain which shaves some memory use.
There are so many goodies here it is hard to summarize them all.
I would like to thank all of the contributors to this release, but especially thank @cyrossignol, whose incredible contributions formed the backbone of this release. I would also like to pay special thanks to @barton2526, @caraka, and @Quezacoatl1, who tirelessly helped during the testing and polishing phase on testnet with testing and repeated builds for all architectures.
The developers are proud to present this release to the community and we believe this represents the starting point for a true renaissance for Gridcoin!

Summary Changelog

Accrual

Changed

Most significantly, nodes calculate research rewards directly from the magnitudes in EACH superblock between stakes instead of using a two- or three- point average based on a CPID's current magnitude and the magnitude for the CPID when it last staked. For those long-timers in the community, this has been referred to as "Superblock Windows," and was first done in proof-of-concept form by @denravonska.

Removed

Beacons

Added

Changed

Removed

Unaltered

As a reminder:

Superblocks

Added

Changed

Removed

Voting

Added

Changed

Removed

Detailed Changelog

[5.0.0.0] 2020-09-03, mandatory, "Fern"

Added

Changed

Removed

Fixed

submitted by jamescowens to gridcoin [link] [comments]

Technical: The Path to Taproot Activation

Taproot! Everybody wants to have it, somebody wants to make it, nobody knows how to get it!
(If you are asking why everybody wants it, see: Technical: Taproot: Why Activate?)
(Pedants: I mostly elide over lockin times)
Briefly, Taproot is that neat new thing that gets us:
So yes, let's activate taproot!

The SegWit Wars

The biggest problem with activating Taproot is PTSD from the previous softfork, SegWit. Pieter Wuille, one of the authors of the current Taproot proposal, has consistently held the position that he will not discuss activation, and will accept whatever activation process is imposed on Taproot. Other developers have expressed similar opinions.
So what happened with SegWit activation that was so traumatic? SegWit used the BIP9 activation method. Let's dive into BIP9!

BIP9 Miner-Activated Soft Fork

Basically, BIP9 has a bunch of parameters:
Now there are other parameters (name, starttime) but they are not anywhere near as important as the above two.
A number that is not a parameter, is 95%. Basically, activation of a BIP9 softfork is considered as actually succeeding if at least 95% of blocks in the last 2 weeks had the specified bit in the nVersion set. If less than 95% had this bit set before the timeout, then the upgrade fails and never goes into the network. This is not a parameter: it is a constant defined by BIP9, and developers using BIP9 activation cannot change this.
So, first some simple questions and their answers:

The Great Battles of the SegWit Wars

SegWit not only fixed transaction malleability, it also created a practical softforkable blocksize increase that also rebalanced weights so that the cost of spending a UTXO is about the same as the cost of creating UTXOs (and spending UTXOs is "better" since it limits the size of the UTXO set that every fullnode has to maintain).
So SegWit was written, the activation was decided to be BIP9, and then.... miner signalling stalled at below 75%.
Thus were the Great SegWit Wars started.

BIP9 Feature Hostage

If you are a miner with at least 5% global hashpower, you can hold a BIP9-activated softfork hostage.
You might even secretly want the softfork to actually push through. But you might want to extract concession from the users and the developers. Like removing the halvening. Or raising or even removing the block size caps (which helps larger miners more than smaller miners, making it easier to become a bigger fish that eats all the smaller fishes). Or whatever.
With BIP9, you can hold the softfork hostage. You just hold out and refuse to signal. You tell everyone you will signal, if and only if certain concessions are given to you.
This ability by miners to hold a feature hostage was enabled because of the miner-exit allowed by the timeout on BIP9. Prior to that, miners were considered little more than expendable security guards, paid for the risk they take to secure the network, but not special in the grand scheme of Bitcoin.

Covert ASICBoost

ASICBoost was a novel way of optimizing SHA256 mining, by taking advantage of the structure of the 80-byte header that is hashed in order to perform proof-of-work. The details of ASICBoost are out-of-scope here but you can read about it elsewhere
Here is a short summary of the two types of ASICBoost, relevant to the activation discussion.
Now, "overt" means "obvious", while "covert" means hidden. Overt ASICBoost is obvious because nVersion bits that are not currently in use for BIP9 activations are usually 0 by default, so setting those bits to 1 makes it obvious that you are doing something weird (namely, Overt ASICBoost). Covert ASICBoost is non-obvious because the order of transactions in a block are up to the miner anyway, so the miner rearranging the transactions in order to get lower power consumption is not going to be detected.
Unfortunately, while Overt ASICBoost was compatible with SegWit, Covert ASICBoost was not. This is because, pre-SegWit, only the block header Merkle tree committed to the transaction ordering. However, with SegWit, another Merkle tree exists, which commits to transaction ordering as well. Covert ASICBoost would require more computation to manipulate two Merkle trees, obviating the power benefits of Covert ASICBoost anyway.
Now, miners want to use ASICBoost (indeed, about 60->70% of current miners probably use the Overt ASICBoost nowadays; if you have a Bitcoin fullnode running you will see the logs with lots of "60 of last 100 blocks had unexpected versions" which is exactly what you would see with the nVersion manipulation that Overt ASICBoost does). But remember: ASICBoost was, at around the time, a novel improvement. Not all miners had ASICBoost hardware. Those who did, did not want it known that they had ASICBoost hardware, and wanted to do Covert ASICBoost!
But Covert ASICBoost is incompatible with SegWit, because SegWit actually has two Merkle trees of transaction data, and Covert ASICBoost works by fudging around with transaction ordering in a block, and recomputing two Merkle Trees is more expensive than recomputing just one (and loses the ASICBoost advantage).
Of course, those miners that wanted Covert ASICBoost did not want to openly admit that they had ASICBoost hardware, they wanted to keep their advantage secret because miners are strongly competitive in a very tight market. And doing ASICBoost Covertly was just the ticket, but they could not work post-SegWit.
Fortunately, due to the BIP9 activation process, they could hold SegWit hostage while covertly taking advantage of Covert ASICBoost!

UASF: BIP148 and BIP8

When the incompatibility between Covert ASICBoost and SegWit was realized, still, activation of SegWit stalled, and miners were still not openly claiming that ASICBoost was related to non-activation of SegWit.
Eventually, a new proposal was created: BIP148. With this rule, 3 months before the end of the SegWit timeout, nodes would reject blocks that did not signal SegWit. Thus, 3 months before SegWit timeout, BIP148 would force activation of SegWit.
This proposal was not accepted by Bitcoin Core, due to the shortening of the timeout (it effectively times out 3 months before the initial SegWit timeout). Instead, a fork of Bitcoin Core was created which added the patch to comply with BIP148. This was claimed as a User Activated Soft Fork, UASF, since users could freely download the alternate fork rather than sticking with the developers of Bitcoin Core.
Now, BIP148 effectively is just a BIP9 activation, except at its (earlier) timeout, the new rules would be activated anyway (instead of the BIP9-mandated behavior that the upgrade is cancelled at the end of the timeout).
BIP148 was actually inspired by the BIP8 proposal (the link here is a historical version; BIP8 has been updated recently, precisely in preparation for Taproot activation). BIP8 is basically BIP9, but at the end of timeout, the softfork is activated anyway rather than cancelled.
This removed the ability of miners to hold the softfork hostage. At best, they can delay the activation, but not stop it entirely by holding out as in BIP9.
Of course, this implies risk that not all miners have upgraded before activation, leading to possible losses for SPV users, as well as again re-pressuring miners to signal activation, possibly without the miners actually upgrading their software to properly impose the new softfork rules.

BIP91, SegWit2X, and The Aftermath

BIP148 inspired countermeasures, possibly from the Covert ASiCBoost miners, possibly from concerned users who wanted to offer concessions to miners. To this day, the common name for BIP148 - UASF - remains an emotionally-charged rallying cry for parts of the Bitcoin community.
One of these was SegWit2X. This was brokered in a deal between some Bitcoin personalities at a conference in New York, and thus part of the so-called "New York Agreement" or NYA, another emotionally-charged acronym.
The text of the NYA was basically:
  1. Set up a new activation threshold at 80% signalled at bit 4 (vs bit 1 for SegWit).
    • When this 80% signalling was reached, miners would require that bit 1 for SegWit be signalled to achive the 95% activation needed for SegWit.
  2. If the bit 4 signalling reached 80%, increase the block weight limit from the SegWit 4000000 to the SegWit2X 8000000, 6 months after bit 1 activation.
The first item above was coded in BIP91.
Unfortunately, if you read the BIP91, independently of NYA, you might come to the conclusion that BIP91 was only about lowering the threshold to 80%. In particular, BIP91 never mentions anything about the second point above, it never mentions that bit 4 80% threshold would also signal for a later hardfork increase in weight limit.
Because of this, even though there are claims that NYA (SegWit2X) reached 80% dominance, a close reading of BIP91 shows that the 80% dominance was only for SegWit activation, without necessarily a later 2x capacity hardfork (SegWit2X).
This ambiguity of bit 4 (NYA says it includes a 2x capacity hardfork, BIP91 says it does not) has continued to be a thorn in blocksize debates later. Economically speaking, Bitcoin futures between SegWit and SegWit2X showed strong economic dominance in favor of SegWit (SegWit2X futures were traded at a fraction in value of SegWit futures: I personally made a tidy but small amount of money betting against SegWit2X in the futures market), so suggesting that NYA achieved 80% dominance even in mining is laughable, but the NYA text that ties bit 4 to SegWit2X still exists.
Historically, BIP91 triggered which caused SegWit to activate before the BIP148 shorter timeout. BIP148 proponents continue to hold this day that it was the BIP148 shorter timeout and no-compromises-activate-on-August-1 that made miners flock to BIP91 as a face-saving tactic that actually removed the second clause of NYA. NYA supporters keep pointing to the bit 4 text in the NYA and the historical activation of BIP91 as a failed promise by Bitcoin developers.

Taproot Activation Proposals

There are two primary proposals I can see for Taproot activation:
  1. BIP8.
  2. Modern Softfork Activation.
We have discussed BIP8: roughly, it has bit and timeout, if 95% of miners signal bit it activates, at the end of timeout it activates. (EDIT: BIP8 has had recent updates: at the end of timeout it can now activate or fail. For the most part, in the below text "BIP8", means BIP8-and-activate-at-timeout, and "BIP9" means BIP8-and-fail-at-timeout)
So let's take a look at Modern Softfork Activation!

Modern Softfork Activation

This is a more complex activation method, composed of BIP9 and BIP8 as supcomponents.
  1. First have a 12-month BIP9 (fail at timeout).
  2. If the above fails to activate, have a 6-month discussion period during which users and developers and miners discuss whether to continue to step 3.
  3. Have a 24-month BIP8 (activate at timeout).
The total above is 42 months, if you are counting: 3.5 years worst-case activation.
The logic here is that if there are no problems, BIP9 will work just fine anyway. And if there are problems, the 6-month period should weed it out. Finally, miners cannot hold the feature hostage since the 24-month BIP8 period will exist anyway.

PSA: Being Resilient to Upgrades

Software is very birttle.
Anyone who has been using software for a long time has experienced something like this:
  1. You hear a new version of your favorite software has a nice new feature.
  2. Excited, you install the new version.
  3. You find that the new version has subtle incompatibilities with your current workflow.
  4. You are sad and downgrade to the older version.
  5. You find out that the new version has changed your files in incompatible ways that the old version cannot work with anymore.
  6. You tearfully reinstall the newer version and figure out how to get your lost productivity now that you have to adapt to a new workflow
If you are a technically-competent user, you might codify your workflow into a bunch of programs. And then you upgrade one of the external pieces of software you are using, and find that it has a subtle incompatibility with your current workflow which is based on a bunch of simple programs you wrote yourself. And if those simple programs are used as the basis of some important production system, you hve just screwed up because you upgraded software on an important production system.
And well, one of the issues with new softfork activation is that if not enough people (users and miners) upgrade to the newest Bitcoin software, the security of the new softfork rules are at risk.
Upgrading software of any kind is always a risk, and the more software you build on top of the software-being-upgraded, the greater you risk your tower of software collapsing while you change its foundations.
So if you have some complex Bitcoin-manipulating system with Bitcoin somewhere at the foundations, consider running two Bitcoin nodes:
  1. One is a "stable-version" Bitcoin node. Once it has synced, set it up to connect=x.x.x.x to the second node below (so that your ISP bandwidth is only spent on the second node). Use this node to run all your software: it's a stable version that you don't change for long periods of time. Enable txiindex, disable pruning, whatever your software needs.
  2. The other is an "always-up-to-date" Bitcoin Node. Keep its stoarge down with pruning (initially sync it off the "stable-version" node). You can't use blocksonly if your "stable-version" node needs to send transactions, but otherwise this "always-up-to-date" Bitcoin node can be kept as a low-resource node, so you can run both nodes in the same machine.
When a new Bitcoin version comes up, you just upgrade the "always-up-to-date" Bitcoin node. This protects you if a future softfork activates, you will only receive valid Bitcoin blocks and transactions. Since this node has nothing running on top of it, it is just a special peer of the "stable-version" node, any software incompatibilities with your system software do not exist.
Your "stable-version" Bitcoin node remains the same version until you are ready to actually upgrade this node and are prepared to rewrite most of the software you have running on top of it due to version compatibility problems.
When upgrading the "always-up-to-date", you can bring it down safely and then start it later. Your "stable-version" wil keep running, disconnected from the network, but otherwise still available for whatever queries. You do need some system to stop the "always-up-to-date" node if for any reason the "stable-version" goes down (otherwisee if the "always-up-to-date" advances its pruning window past what your "stable-version" has, the "stable-version" cannot sync afterwards), but if you are technically competent enough that you need to do this, you are technically competent enough to write such a trivial monitor program (EDIT: gmax notes you can adjust the pruning window by RPC commands to help with this as well).
This recommendation is from gmaxwell on IRC, by the way.
submitted by almkglor to Bitcoin [link] [comments]

Bitcoin Cash Node v0.21.0 is now available. Get ready for the May network upgrade!

Bitcoin Cash Node v0.21.0 is now available. Get ready for the May network upgrade! submitted by BigBlockIfTrue to Bitcoincash [link] [comments]

How to verify if a transaction is correctly signed?

Given an arbitrary signed raw transaction, how can we easily verify if all inputs are correctly signed (admiting all UTXOs are present and fee is higher than zero)? I know there is an RPC command in bitcoin core testmempoolaccept but this will also check if all inputs are available to be spent in the mempool/blockchain and I want to test a transaction that is a child to a parent transaction that has not yet been broadcasted.
The signed transaction instance could have the scriptPubKey of the used utxos stored as metadata (since it needs to know these to sign each input) and use the stored utxos to perform this validation - alternatively, the verification method could ask for the scriptPubKeys of the utxos as input. I was looking for some nice way to do this in python but was surprised how neglected this task is:
EDIT: converting to PSBT is not possible/easy so the last option I mentioned won't work. I have the transactions in serialized 'network' format (what you get from `bitcoin-cli getrawtransaction hex')
EDIT2: escalated to bitcoin stack exchange: https://bitcoin.stackexchange.com/questions/96759/how-to-verify-if-a-transaction-is-correctly-signed
submitted by johnturtle to BitcoinBeginners [link] [comments]

What naming convention should I use for a JSON RPC client API designed for multiple languages?

This is the documentation with the original RPC client API specification. The naming convention in the specification is camel case.
Naming conventions might differ in subtle ways for different languages (camel case vs. pascal case), but for some conventions like snake case (Python) or Swift's Fluent Usage API changing the names in the original specification might increase the cognitive load when using the API for those already familiar with the specification.
When searching for different JSON RPC APIs on GitHub, some implementations seem to take advantage of reflection to intercept method calls and pass them to RPC request "as is" so method names for that language are the same as in the original spec. If reflection is not available the names are hardcoded and are mostly the same as the spec, changing only the capitalization of letters for some languages.
Some examples:
Not using Fluent Design in Swift
https://github.com/fanquake/CoreRPC/blob/masteSources/CoreRPC/Blockchain.swift https://github.com/brunophilipe/SwiftRPC/blob/masteSwiftRPC/SwiftRPC+Requests.swift
Not using snake case in Ruby
https://github.com/sinisterchipmunk/bitcoin-client/blob/mastelib/bitcoin-client/client.rb
Changing method names to pascal case in C#
https://github.com/cryptean/bitcoinlib/blob/mastesrc/BitcoinLib/Services/RpcServices/RpcService/RpcService.cs
submitted by rraallvv to learnprogramming [link] [comments]

Odarhom - Release Notes - Short Overview - First Draft

Odarhom - Release Notes - Short Overview - First Draft

Odarhom
Masternodes
Odarhom brings along a masternode system for Bitcore. The collateral for one masternode is 2,100 BTX. This allows up to 10,000 masternodes to support the network. The masternodes receive half of all generated bitcores. It is possible to setup a masternode with the minimum version 0.90.8.x or higher. A government system is included in the new core and can be activated later, if necessary.
Datacarriersize

https://preview.redd.it/csrmknzl58q41.jpg?width=1267&format=pjpg&auto=webp&s=85c59b3e5753009f397505c3000e6d70892188b7
Odarhom increase the default datacarriersize up to 220 bytes. More infos con you find here | here no 2. | here no 3.
Command fork system
Different forks can be activated remotely in the future. This way we can ensure that all critical updates are only activated once all important network participants are ready.
Wallet changes
Odarhom introduces full support for segwit in the wallet and user interfaces. A new `-addresstype` argument has been added, which supports `legacy`, `p2sh-segwit` (default), and `bech32` addresses. It controls what kind of addresses are produced by `getnewaddress`, `getaccountaddress`, and `createmultisigaddress`. A `-changetype` argument has also been added, with the same options, and by default equal to `-addresstype`, to control which kind of change is used.
A new `address_type` parameter has been added to the `getnewaddress` and `addmultisigaddress` RPCs to specify which type of address to generate.
A `change_type` argument has been added to the `fundrawtransaction` RPC to override the `-changetype` argument for specific transactions.
All segwit addresses created through `getnewaddress` or `*multisig` RPCs explicitly get their redeemscripts added to the wallet file. This means that downgrading after creating a segwit address will work, as long as the wallet file is up to date.
All segwit keys in the wallet get an implicit redeemscript added, without it being written to the file. This means recovery of an old backup will work, as long as you use new software.
All keypool keys that are seen used in transactions explicitly get their redeemscripts added to the wallet files. This means that downgrading after recovering from a backup that includes a segwit address will work
Note that some RPCs do not yet support segwit addresses. Notably, `signmessage`/`verifymessage` doesn't support segwit addresses, nor does `importmulti` at this time. Support for segwit in those RPCs will continue to be added in future versions.
P2WPKH change outputs are now used by default if any destination in the transaction is a P2WPKH or P2WSH output. This is done to ensure the change output is as indistinguishable from the other outputs as possible in either case.
BIP173 (Bech32) Address support ("btx..." addresses)

https://preview.redd.it/q0c26p3fx7q41.jpg?width=1278&format=pjpg&auto=webp&s=bd2b8c5d583dca703caae940aa44e01a365f080c
Full support for native segwit addresses (BIP173 / Bech32) has now been added.
This includes the ability to send to BIP173 addresses (including non-v0 ones), and generating these addresses (including as default new addresses, see above).
A checkbox has been added to the GUI to select whether a Bech32 address or P2SH-wrapped address should be generated when using segwit addresses. When launched with `-addresstype=bech32` it is checked by default. When launched with `-addresstype=legacy` it is unchecked and disabled.
HD-wallets by default
Due to a backward-incompatible change in the wallet database, wallets created with version 0.15.2 will be rejected by previous versions. Also, version 0.15.2 will only create hierarchical deterministic (HD) wallets. Note that this only applies to new wallets; wallets made with previous versions will not be upgraded to be HD.
Replace-By-Fee by default in GUI
The send screen now uses BIP125 RBF by default, regardless of `-walletrbf`.There is a checkbox to mark the transaction as final.
The RPC default remains unchanged: to use RBF, launch with `-walletrbf=1` oruse the `replaceable` argument for individual transactions.
Wallets directory configuration (`-walletdir`)
Odarhom now has more flexibility in where the wallets directory can belocated. Previously wallet database files were stored at the top level of thebitcoin data directory. The behavior is now:
For new installations (where the data directory doesn't already exist), wallets will now be stored in a new `wallets/` subdirectory inside the data directory by default.
For existing nodes (where the data directory already exists), wallets will be stored in the data directory root by default. If a `wallets/` subdirectory already exists in the data directory root, then wallets will be stored in the `wallets/` subdirectory by default.- The location of the wallets directory can be overridden by specifying a
`-walletdir=` option where `` can be an absolute path to a directory or directory symlink.
Care should be taken when choosing the wallets directory location, as if itbecomes unavailable during operation, funds may be lost.
Support for signalling pruned nodes (BIP159)

https://preview.redd.it/fctdedmwx7q41.jpg?width=1283&format=pjpg&auto=webp&s=20dafb6385f46a072f68d49fd0e9a294341be684
Pruned nodes can now signal BIP159's NODE_NETWORK_LIMITED using service bits, in preparation forfull BIP159 support in later versions. This would allow pruned nodes to serve the most recent blocks. However, the current change does not yet include support for connecting to these pruned peers.
GUI changes
We have added a new Walletdesign. The option to reuse a previous address has now been removed. This was justified by the need to "resend" an invoice, but now that we have the request history, that need should be gone.- Support for searching by TXID has been added, rather than just address and label.- A "Use available balance" option has been added to the send coins dialog, to add the remaining available wallet balance to a transaction output.- A toggle for unblinding the password fields on the password dialog has been added
Security
We change the coinbase maturity via command fork from 100 to 576 blocks. Also we have pumb the default the protoversion to 80004. It is possible later to disconnect the old version via command fork.
Hashalgorythm
Odarhom supports already lots of Hashalgorythms so can we later with an update new Hashalgorythms for mining. A final decision will be agreed with the community. Odarhom can work with timetravel10, scrypt, nist5, lyra2z, x11, x16r.
Sources
Bitcoin Core, Dash Core, FXTC Core, LTC Core, PIVX Core, Bitcoin Cash Core
submitted by limxdev to bitcore_btx [link] [comments]

Creamcoin 0.18.0.0 – following Bitcoin’s tale

Creamcoin 0.18.0.0 – following Bitcoin’s tale

06/08/2019 3 min read📷216SHARES216VIEWSShare on Twitter
When new Creamcoin was designed, we had in mind not only a coin that would hold parity with any cryptocurrency, but something that would demonstrate the extra-special capabilities of a decentralized ledger, capable to introduce, help and bring it further to the regular people. Blockchain developing is unstoppable complex process with endless possibilities. Integration of applications on such a technology could achieve better, secure pass of value.
0.18.0.0

On August 5th, 2019 Creamcoin code was successfully updated to the latest Bitcoin version 0.18.0
https://github.com/creamcoin/cream/
With this latest release, we proved that Creamcoin itself it’s not a sort of a tenant to the Bitcoin. Much easier to apply and to pursue the main purpose of existence and to create further innovations in our Cream Line. The new release brings tremendous performance improvements, as well as integration will be much easier for any platform, exchange or integrator. Wallets are available to Releases tab on github
WALLETS

Multi-wallet support

Cream Core now supports loading multiple, separate wallets. The wallets are completely separated, with individual balances, keys and received transactions. Multi-wallet is enabled by using more than one -wallet argument when starting Creamcoin, either on the command line or in the Cream config file. In Creamcoin-Qt, only the first wallet will be displayed and accessible for creating and signing transactions. GUI selectable multiple wallets will be supported in a future version. This feature will continue to be refined with later updates, as there are still some known issues in using the GUI to access the “multiwallet” command. The most notable is that you can’t use coin control features with multiple wallets loaded, or else you will likely retain the wrong wallet when attempting to switch wallets.
When running Cream Core with multi-wallet, wallet-level RPC methods must specify the wallet for which they’re intended in every request. HTTP RPC requests should be send to the :/wallet// endpoint, for example 127.0.0.1:8332/wallet/wallet1.dat/. bitcoin-cli commands should be run with a -rpcwallet option, for example [bitcoin-cli -rpcwallet=wallet1.dat getbalance] A new node-level [listwallets] RPC method is added to display which wallets are currently loaded. Starting command for both wallets should look like this: [creamd -daemon -wallet=wallet1.dat -wallet=wallet2.dat]

Hardware Wallet native compatibility

With a new release of Cream Core the possibility is added in the form of use hardware wallets (Ledger, Trezor, Digital BitBox, KeepKey, Coldcard), but this process is manual and involves the use of Hardware Wallet Interaction (HWI) tool and it needs HW support and addition of Cream in the future, which is not excluded from roadmap. This is a great news for everyone who use Cream Core, and want extra security. Only applies to those who can use command line/CLI (for now), and when some of Hardware wallets actually supports Cream.

SegWit 4MB limit

SegWit replacing the block size limit with a block “weight” limit, allowing up to 4 megabytes of transaction data, and giving a substantial boost in the transaction capacity of the Cream network.

www.creamcoin.com

In the same with the new code update, Creamcoin Team is doing major shifting power, migrating the marketing and promotion activities, from our news site cream.technology to our main page www.creamcoin.com. We will come up with additional statement in this matter, so our supporters and followers have better perspective of Cream Line and the products of it.
In the meantime we are looking into new ways that developers can enhance the capabilities of the Creamcoin protocol, integration of decentralized exchange functionality, lightning network and number of other options that would allow for different types of conditional sends of Creamcoin assets. We are inviting any individual, platform, exchange or integrator who would like to submit recommendations or feature requests, feel free to contribute to the Creamcoin Github.
By Cream Team
submitted by creamcointeam to u/creamcointeam [link] [comments]

How to verify a signed message in bitcoinj?

Link to bitcoin stack exchange: https://bitcoin.stackexchange.com/questions/92406/how-to-verify-a-signed-message-in-bitcoinj

I want to verify, in Java, a signature produced with bitcoin core's signmessagewithprivkey (equivalent to the verifymessage). I noticed a bitcoinj method similar to the bitcoin core's verifymessage - org.bitcoinj.core.ECKey.verify. What follows is my implementation attempt and its test.
For testing I will generate a signature and check it in bitcoin core:
>bitcoin-cli signmessagewithprivkey $(bitcoin-cli dumpprivkey 1CwKH9PQPkFPjQagEv483FUM5ngk57L3Pp) "" H2wp/+5N2+OQwP6a5GFRbt8S+EfML1Szx4uhWPfiO0e/QcY2rZQOkLOR+unknNl4NgDWBacRRXOLjr+m53V0xic= > bitcoin-cli verifymessage "1CwKH9PQPkFPjQagEv483FUM5ngk57L3Pp" "H2wp/+5N2+OQwP6a5GFRbt8S+EfML1Szx4uhWPfiO0e/QcY2rZQOkLOR+unknNl4NgDWBacRRXOLjr+m53V0xic=" "" true 
So, signing an empty message with the RPC using the address 1CwKH9PQPkFPjQagEv483FUM5ngk57L3Pp (public key: 021c3be5fb7820c56d881ea2d02a906d87540ec8888bbe819b7abd2e39f6f6e512), produces the signature H2wp/+5N2+OQwP6a5GFRbt8S+EfML1Szx4uhWPfiO0e/QcY2rZQOkLOR+unknNl4NgDWBacRRXOLjr+m53V0xic=.
My Java implementation attempt:
import org.apache.commons.codec.binary.Hex; import org.bitcoinj.core.ECKey; import org.bitcoinj.core.Sha256Hash; import java.math.BigInteger; import java.util.Base64; public class Notebook { public static BigInteger[] ParseSig(byte[] sigBytes, int sigOff) { BigInteger r = new BigInteger( 1 ,sigBytes, sigOff, 32); BigInteger s = new BigInteger( 1, sigBytes, sigOff + 32, 32); return new BigInteger[] { r, s }; } public static void main(String[] args) throws Exception{ // Signature String signatureString = "H2wp/+5N2+OQwP6a5GFRbt8S+EfML1Szx4uhWPfiO0e/QcY2rZQOkLOR+unknNl4NgDWBacRRXOLjr+m53V0xic="; byte[] signatureBytes = Base64.getDecoder().decode(signatureString); BigInteger[] signatureRandS = ParseSig(signatureBytes, 1); ECKey.ECDSASignature signature = new ECKey.ECDSASignature(signatureRandS[0], signatureRandS[1]); // Public key String pubKeyString = "021c3be5fb7820c56d881ea2d02a906d87540ec8888bbe819b7abd2e39f6f6e512"; byte[] decodedPubKeyString = Hex.decodeHex(pubKeyString.toCharArray()); ECKey publicKey = ECKey.fromPublicOnly(decodedPubKeyString); // Message String message = "Bitcoin Signed Message:\n"; Sha256Hash messageHash = Sha256Hash.of(message.getBytes()); Sha256Hash messageDoubleHash = Sha256Hash.of(messageHash.getBytes()); // Test boolean result = publicKey.verify(messageDoubleHash, signature); System.out.println("Result: " + result); } } 
Notice that I used the salt Bitcoin Signed Message:\n before hashing the message - this is done by signmessagewithprivkey as shown here and here. The problem is the above implementation doesn't pass my test and I don't know why...
submitted by johnturtle to BitcoinBeginners [link] [comments]

Groestlcoin 6th Anniversary Release

Introduction

Dear Groestlers, it goes without saying that 2020 has been a difficult time for millions of people worldwide. The groestlcoin team would like to take this opportunity to wish everyone our best to everyone coping with the direct and indirect effects of COVID-19. Let it bring out the best in us all and show that collectively, we can conquer anything.
The centralised banks and our national governments are facing unprecedented times with interest rates worldwide dropping to record lows in places. Rest assured that this can only strengthen the fundamentals of all decentralised cryptocurrencies and the vision that was seeded with Satoshi's Bitcoin whitepaper over 10 years ago. Despite everything that has been thrown at us this year, the show must go on and the team will still progress and advance to continue the momentum that we have developed over the past 6 years.
In addition to this, we'd like to remind you all that this is Groestlcoin's 6th Birthday release! In terms of price there have been some crazy highs and lows over the years (with highs of around $2.60 and lows of $0.000077!), but in terms of value– Groestlcoin just keeps getting more valuable! In these uncertain times, one thing remains clear – Groestlcoin will keep going and keep innovating regardless. On with what has been worked on and completed over the past few months.

UPDATED - Groestlcoin Core 2.18.2

This is a major release of Groestlcoin Core with many protocol level improvements and code optimizations, featuring the technical equivalent of Bitcoin v0.18.2 but with Groestlcoin-specific patches. On a general level, most of what is new is a new 'Groestlcoin-wallet' tool which is now distributed alongside Groestlcoin Core's other executables.
NOTE: The 'Account' API has been removed from this version which was typically used in some tip bots. Please ensure you check the release notes from 2.17.2 for details on replacing this functionality.

How to Upgrade?

Windows
If you are running an older version, shut it down. Wait until it has completely shut down (which might take a few minutes for older versions), then run the installer.
OSX
If you are running an older version, shut it down. Wait until it has completely shut down (which might take a few minutes for older versions), run the dmg and drag Groestlcoin Core to Applications.
Ubuntu
http://groestlcoin.org/forum/index.php?topic=441.0

Other Linux

http://groestlcoin.org/forum/index.php?topic=97.0

Download

Download the Windows Installer (64 bit) here
Download the Windows Installer (32 bit) here
Download the Windows binaries (64 bit) here
Download the Windows binaries (32 bit) here
Download the OSX Installer here
Download the OSX binaries here
Download the Linux binaries (64 bit) here
Download the Linux binaries (32 bit) here
Download the ARM Linux binaries (64 bit) here
Download the ARM Linux binaries (32 bit) here

Source

ALL NEW - Groestlcoin Moonshine iOS/Android Wallet

Built with React Native, Moonshine utilizes Electrum-GRS's JSON-RPC methods to interact with the Groestlcoin network.
GRS Moonshine's intended use is as a hot wallet. Meaning, your keys are only as safe as the device you install this wallet on. As with any hot wallet, please ensure that you keep only a small, responsible amount of Groestlcoin on it at any given time.

Features

Download

iOS
Android

Source

ALL NEW! – HODL GRS Android Wallet

HODL GRS connects directly to the Groestlcoin network using SPV mode and doesn't rely on servers that can be hacked or disabled.
HODL GRS utilizes AES hardware encryption, app sandboxing, and the latest security features to protect users from malware, browser security holes, and even physical theft. Private keys are stored only in the secure enclave of the user's phone, inaccessible to anyone other than the user.
Simplicity and ease-of-use is the core design principle of HODL GRS. A simple recovery phrase (which we call a Backup Recovery Key) is all that is needed to restore the user's wallet if they ever lose or replace their device. HODL GRS is deterministic, which means the user's balance and transaction history can be recovered just from the backup recovery key.

Features

Download

Main Release (Main Net)
Testnet Release

Source

ALL NEW! – GroestlcoinSeed Savior

Groestlcoin Seed Savior is a tool for recovering BIP39 seed phrases.
This tool is meant to help users with recovering a slightly incorrect Groestlcoin mnemonic phrase (AKA backup or seed). You can enter an existing BIP39 mnemonic and get derived addresses in various formats.
To find out if one of the suggested addresses is the right one, you can click on the suggested address to check the address' transaction history on a block explorer.

Features

Live Version (Not Recommended)

https://www.groestlcoin.org/recovery/

Download

https://github.com/Groestlcoin/mnemonic-recovery/archive/master.zip

Source

ALL NEW! – Vanity Search Vanity Address Generator

NOTE: NVidia GPU or any CPU only. AMD graphics cards will not work with this address generator.
VanitySearch is a command-line Segwit-capable vanity Groestlcoin address generator. Add unique flair when you tell people to send Groestlcoin. Alternatively, VanitySearch can be used to generate random addresses offline.
If you're tired of the random, cryptic addresses generated by regular groestlcoin clients, then VanitySearch is the right choice for you to create a more personalized address.
VanitySearch is a groestlcoin address prefix finder. If you want to generate safe private keys, use the -s option to enter your passphrase which will be used for generating a base key as for BIP38 standard (VanitySearch.exe -s "My PassPhrase" FXPref). You can also use VanitySearch.exe -ps "My PassPhrase" which will add a crypto secure seed to your passphrase.
VanitySearch may not compute a good grid size for your GPU, so try different values using -g option in order to get the best performances. If you want to use GPUs and CPUs together, you may have best performances by keeping one CPU core for handling GPU(s)/CPU exchanges (use -t option to set the number of CPU threads).

Features

Usage

https://github.com/Groestlcoin/VanitySearch#usage

Download

Source

ALL NEW! – Groestlcoin EasyVanity 2020

Groestlcoin EasyVanity 2020 is a windows app built from the ground-up and makes it easier than ever before to create your very own bespoke bech32 address(es) when whilst not connected to the internet.
If you're tired of the random, cryptic bech32 addresses generated by regular Groestlcoin clients, then Groestlcoin EasyVanity2020 is the right choice for you to create a more personalised bech32 address. This 2020 version uses the new VanitySearch to generate not only legacy addresses (F prefix) but also Bech32 addresses (grs1 prefix).

Features

Download

Source

Remastered! – Groestlcoin WPF Desktop Wallet (v2.19.0.18)

Groestlcoin WPF is an alternative full node client with optional lightweight 'thin-client' mode based on WPF. Windows Presentation Foundation (WPF) is one of Microsoft's latest approaches to a GUI framework, used with the .NET framework. Its main advantages over the original Groestlcoin client include support for exporting blockchain.dat and including a lite wallet mode.
This wallet was previously deprecated but has been brought back to life with modern standards.

Features

Remastered Improvements

Download

Source

ALL NEW! – BIP39 Key Tool

Groestlcoin BIP39 Key Tool is a GUI interface for generating Groestlcoin public and private keys. It is a standalone tool which can be used offline.

Features

Download

Windows
Linux :
 pip3 install -r requirements.txt python3 bip39\_gui.py 

Source

ALL NEW! – Electrum Personal Server

Groestlcoin Electrum Personal Server aims to make using Electrum Groestlcoin wallet more secure and more private. It makes it easy to connect your Electrum-GRS wallet to your own full node.
It is an implementation of the Electrum-grs server protocol which fulfils the specific need of using the Electrum-grs wallet backed by a full node, but without the heavyweight server backend, for a single user. It allows the user to benefit from all Groestlcoin Core's resource-saving features like pruning, blocks only and disabled txindex. All Electrum-GRS's feature-richness like hardware wallet integration, multi-signature wallets, offline signing, seed recovery phrases, coin control and so on can still be used, but connected only to the user's own full node.
Full node wallets are important in Groestlcoin because they are a big part of what makes the system be trust-less. No longer do people have to trust a financial institution like a bank or PayPal, they can run software on their own computers. If Groestlcoin is digital gold, then a full node wallet is your own personal goldsmith who checks for you that received payments are genuine.
Full node wallets are also important for privacy. Using Electrum-GRS under default configuration requires it to send (hashes of) all your Groestlcoin addresses to some server. That server can then easily spy on your transactions. Full node wallets like Groestlcoin Electrum Personal Server would download the entire blockchain and scan it for the user's own addresses, and therefore don't reveal to anyone else which Groestlcoin addresses they are interested in.
Groestlcoin Electrum Personal Server can also broadcast transactions through Tor which improves privacy by resisting traffic analysis for broadcasted transactions which can link the IP address of the user to the transaction. If enabled this would happen transparently whenever the user simply clicks "Send" on a transaction in Electrum-grs wallet.
Note: Currently Groestlcoin Electrum Personal Server can only accept one connection at a time.

Features

Download

Windows
Linux / OSX (Instructions)

Source

UPDATED – Android Wallet 7.38.1 - Main Net + Test Net

The app allows you to send and receive Groestlcoin on your device using QR codes and URI links.
When using this app, please back up your wallet and email them to yourself! This will save your wallet in a password protected file. Then your coins can be retrieved even if you lose your phone.

Changes

Download

Main Net
Main Net (FDroid)
Test Net

Source

UPDATED – Groestlcoin Sentinel 3.5.06 (Android)

Groestlcoin Sentinel is a great solution for anyone who wants the convenience and utility of a hot wallet for receiving payments directly into their cold storage (or hardware wallets).
Sentinel accepts XPUB's, YPUB'S, ZPUB's and individual Groestlcoin address. Once added you will be able to view balances, view transactions, and (in the case of XPUB's, YPUB's and ZPUB's) deterministically generate addresses for that wallet.
Groestlcoin Sentinel is a fork of Groestlcoin Samourai Wallet with all spending and transaction building code removed.

Changes

Download

Source

UPDATED – P2Pool Test Net

Changes

Download

Pre-Hosted Testnet P2Pool is available via http://testp2pool.groestlcoin.org:21330/static/

Source

submitted by Yokomoko_Saleen to groestlcoin [link] [comments]

Could we sticky a post about how to setup a proper full node?

I made a post earlier that was simply an image of my wallet being synced and it has gotten so many questions in regards to how to setup a full node. It seems pretty imperative that we have as many NO2X nodes signaling as possible (as well as just full nodes in general). There appears to be a very eager and willing community on this sub that could use some guidance.
My original post: https://www.reddit.com/Bitcoin/comments/77fvw5/8_years_and_41_weeks_behind_but_im_finally_doing/
submitted by I_dance_4_upvotes to Bitcoin [link] [comments]

How can I get this script to work for Litecoin 0.8.7.5?

What would I need to do to get this script to work for Litecoin 0.8.7.5? https://github.com/litecoin-project/litecoin/releases/tag/v0.8.7.5
 class Bitcoin { // Configuration options private $username; private $password; private $proto; private $host; private $port; private $url; private $CACertificate; // Information and debugging public $status; public $error; public $raw_response; public $response; private $id = 0; /** * @param string $username * @param string $password * @param string $host * @param int $port * @param string $proto * @param string $url */ function __construct($username, $password, $host = 'localhost', $port = 8332, $url = null) { $this->username = $username; $this->password = $password; $this->host = $host; $this->port = $port; $this->url = $url; // Set some defaults $this->proto = $host == 'localhost' ? 'http':'https'; $this->CACertificate = null; } /** * @param string|null $certificate */ function setSSL($certificate = null) { $this->proto = 'https'; // force HTTPS $this->CACertificate = $certificate; } function __call($method, $params) { $this->status = null; $this->error = null; $this->raw_response = null; $this->response = null; // If no parameters are passed, this will be an empty array $params = array_values($params); // The ID should be unique for each call $this->id++; // Build the request, it's ok that params might have any empty array $request = json_encode(array( 'method' => $method, 'params' => $params, 'id' => $this->id )); // Build the cURL session $curl = curl_init("{$this->proto}://{$this->username}:{$this->password}@{$this->host}:{$this->port}/{$this->url}"); $options = array( CURLOPT_RETURNTRANSFER => TRUE, CURLOPT_FOLLOWLOCATION => TRUE, CURLOPT_MAXREDIRS => 10, CURLOPT_HTTPHEADER => array('Content-type: application/json'), CURLOPT_POST => TRUE, CURLOPT_POSTFIELDS => $request ); if ($this->proto == 'https') { // If the CA Certificate was specified we change CURL to look for it if ($this->CACertificate != null) { $options[CURLOPT_CAINFO] = $this->CACertificate; $options[CURLOPT_CAPATH] = DIRNAME($this->CACertificate); } else { // If not we need to assume the SSL cannot be verified so we set this flag to FALSE to allow the connection $options[CURLOPT_SSL_VERIFYPEER] = FALSE; } } curl_setopt_array($curl, $options); // Execute the request and decode to an array $this->raw_response = curl_exec($curl); $this->response = json_decode($this->raw_response, TRUE); //error_log('this->response: '. print_r($this->response,true)); // If the status is not 200, something is wrong $this->status = curl_getinfo($curl, CURLINFO_HTTP_CODE); // If there was no error, this will be an empty string $curl_error = curl_error($curl); curl_close($curl); if (!empty($curl_error)) { $this->error = $curl_error; } if ($this->response['error']) { // If bitcoind returned an error, put that in $this->error $this->error = $this->response['error']['message']; } elseif ($this->status != 200) { // If bitcoind didn't return a nice error message, we need to make our own switch ($this->status) { case 400: $this->error = 'HTTP_BAD_REQUEST'; break; case 401: $this->error = 'HTTP_UNAUTHORIZED'; break; case 403: $this->error = 'HTTP_FORBIDDEN'; break; case 404: $this->error = 'HTTP_NOT_FOUND'; break; } } if ($this->error) { return FALSE; } return $this->response['result']; } } /* Address History Interface Class */ class AddressHistory { public $address = null; public $n_tx = 0; public $total_sent = 0; public $total_received = 0; public $balance = 0; public $final_balance = 0; public $txns = array(); public function __construct($txn=null) { if(! is_array($txn)) return null; if(array_key_exists('address', $txn)) $this->address = $txn['address']; if(array_key_exists('n_tx', $txn)) $this->n_tx = $txn['n_tx']; if(array_key_exists('total_sent', $txn)) $this->total_sent = $txn['total_sent']; if(array_key_exists('total_received', $txn))$this->total_received = $txn['total_received']; if(array_key_exists('balance', $txn)) $this->balance = $txn['balance']; if(array_key_exists('final_balance', $txn)) $this->final_balance = $txn['final_balance']; if(is_array($txn['txns'])) { foreach($txn['txns'] as $key => $this_txn) { $new_txn = array( 'hash' => $this_txn['hash'], 'block_height' => $this_txn['block_height'], 'value' => $this_txn['value'], 'spent' => $this_txn['spent'], 'spent_by' => $this_txn['spent_by'], 'confirmations'=> $this_txn['confirmations'] ); $this->txns[$key] = new TransRef($new_txn); } } else { $this->txns = null; } return $this; } } /* Transaction Reference Interface Class */ class TransRef { public $hash; public $block_height; public $value; public $spent; public $spent_by; public $confirmations; public function __construct($txnref=null) { if(! is_array($txnref)) return null; if(array_key_exists('hash', $txnref)) $this->hash = $txnref['hash']; if(array_key_exists('block_height', $txnref)) $this->block_height = $txnref['block_height']; if(array_key_exists('value', $txnref)) $this->value = $txnref['value']; if(array_key_exists('spent', $txnref)) $this->spent = $txnref['spent']; if(array_key_exists('spent_by', $txnref)) $this->spent_by = $txnref['spent_by']; if(array_key_exists('confirmations', $txnref)) $this->confirmations = $txnref['confirmations']; return $this; } } /* CoindRPC - JsonRPC Class to talk to bitcoind */ class CoindRPC extends Bitcoin { public function __construct() { return parent::__construct(WN_RPC_USER, WN_RPC_PASS, WN_RPC_HOST, WN_RPC_PORT); } public function __call($method, $params) { return parent::__call($method, $params); } public function get_address_balance($address, $confirmations=0) { try { $address_info = $this->validateaddress($address); if($address_info['isvalid'] == 1 && $address_info['ismine'] == 1) { $balance = $this->getreceivedbyaddress($address, $confirmations); } if($balance != '') { return floatval($balance); } else { return 0; } } catch (Exception $e) { error_log('error: '. print_r($e->getMessage(),true)); error_log('['.__LINE__.'] : '.__FILE__); } } public function get_address_history($address) { try { $address_info = $this->validateaddress($address); if($address_info['isvalid'] == 1 && $address_info['ismine'] == 1) { //- if only listening to one BTC account //$history = $this->listtransactions(WN_RPC_ACCT); $history = $this->listtransactions(); $txns = array(); $final_balance = $balance = 0; foreach($history as $txn) { if($txn['address'] != $address) continue; $n_tx = $total_received = $total_sent = 0; $n_tx = intval($addr_hist['n_tx']) + 1; switch($txn['category']) { case('receive'): $total_received = $addr_hist['total_received'] += $txn['amount']; $balance = $balance + $txn['amount']; //- can we trust final balance here? do we need more history $final_balance = $final_balance + $txn['amount']; break; case('send'): $total_sent = $addr_hist['total_sent'] += $txn['amount']; $balance = $balance + $txn['amount']; //- can we trust final balance here? do we need more history $final_balance = $final_balance + $txn['amount']; break; } $txns[] = array( 'hash' => $txn['txid'], 'value' => $txn['amount'], 'spent' => $txn['spent'], 'spent_by' => $txn['spent_by'], 'confirmations' => $txn['confirmations'], ); } $addr_hist = array( 'address' => $address, 'n_tx' => $n_tx, 'total_sent' => $total_sent, 'total_received' => $total_received, 'balance' => $balance, 'final_balance' => $final_balance, 'txns' => $txns ); $addr_hist = new AddressHistory($addr_hist); } else { $addr_hist = false; error_log('Address invalid: '.$address); error_log('['.__LINE__.'] : '.__FILE__); } return $addr_hist; } catch (Exception $e) { error_log('error: '. print_r($e->getMessage(),true)); error_log('['.__LINE__.'] : '.__FILE__); } } public function get_transaction($hash) { try { return $this->gettransaction($hash); } catch (Exception $e) { error_log('error: '. print_r($e->getMessage(),true)); error_log('['.__LINE__.'] : '.__FILE__); } } } /* Helper class */ class Helper { public static $api = null; public static $db = null; public function __construct($db, $api) { Helper::$api = $api; Helper::$db = $db; } public static function walletnotify_email($txnhead) { //- bitcoind calls walletnotify on 0 confirmations and 1. //- We only want email to go out on the first call. Otherwise //- if we want only one 1 confrime, change this to //- confirmations == 0) return; if($txnhead['confirmations'] > 0) return; $tmpl = file_get_contents('email.notify.tmpl.html'); foreach($txnhead as $key => $val) { $map['{'.$key.'}'] = $val; } $map['{timestamp}'] = date('Y-m-d H:i:s', WN_GLOBAL_TIMESTAMP); $map['{hostname}'] = php_uname('n'); $html = str_replace(array_keys($map), array_values($map), $tmpl); $txid_short = substr($txnhead['txid'], 0, 4).' .. '.substr($txnhead['txid'], -4); $msg = "=WNotify=". "\ntxid: ".$txid_short. "\nAmt : ".$txnhead['amount']. "\nCmnt: ".$txnhead['comment']. "\nAcct: ".$txnhead['account']. "\nConf: ".$txnhead['confirmations']. "\nCat : ".$txnhead['category']. "\nAddr: ".$txnhead['address']. ""; //- send to carrier's email to SMS gateway if configured if(defined('WN_SMS_ADMIN') && filter_var(WN_SMS_ADMIN, FILTER_VALIDATE_EMAIL)) { Helper::send_email_sms($msg, WN_SMS_ADMIN); } return Helper::send_email($html, 'WN:WalletNotify', WN_EMAIL_ADMIN);; } public static function send_email($msg, $subj, $to) { $headers = 'From: '.WN_EMAIL_FROM."\r\n"; $headers .= "MIME-Version: 1.0\r\n"; $headers .= "Content-Type: text/html; charset=ISO-8859-1\r\n"; if(trim($msg) == '') return false; return mail($to, $subj, $msg, $headers); } public static function send_email_sms($msg, $to) { if(trim($msg) == '') return false; if($to == '') return false; $headers = 'From: '.WN_EMAIL_FROM."\r\n"; return mail($to, null, $msg."\n.", $headers); } } 
submitted by Mjjjokes to cryptodevs [link] [comments]

Loom Network Was the 8th Most Developed ERC-20 Dapp in December! - Santiment Community Insights

https://twitter.com/santimentfeed/status/1212047962827829248
As many of you may know by now, our team at Santiment (the most comprehensive cryptocurrency data analytics platform available) analyzes which projects have been developing most rapidly, based on submission rates that we track using each projects' Github metrics (explained in this article).
Some of the more recent milestones from the Loom team include:
For those of you who don't know about Santiment, we track metrics and insights for all things crypto, and pay particular focus toward ERC-20 Dapps. This project's development activity and improvements have been consistently among the highest among them. Check out the full month's countdown here.
Please feel free to subscribe to Santiment, and Pro subscriptions are getting a major overhaul in added features and more quality templates, such as NVT and DAA Divergence up-to-the-day market analysis to find local tops and bottoms! Our premium users are reporting significantly greater returns that more than outweigh the affordable packages we offer. For more insights like this if these types of analyses interest you. We'd also recommend our Twitter page as a source to be consistently updated on all sorts of insights we release on a regular basis. Thank you!
submitted by BrianAtSantiment to loomnetwork [link] [comments]

How to pass in wallet password over rpc using electrum-cash wallet

Hi, I am trying to send bitcoin using rpc and electrum and I am trying to pass the wallet password flag over rpc.

curl --data-binary '{"id":"curltext","method":"paytomany","params":[["bitcoincash:qrmcdhr4q5qvfq", 0.000006],["bitcoincash:qqcugujm4kfq5cgf3w6ddwz53ntmy5yfuygp9achwl", 0.000006]] }' http://username:[email protected]:7777
Somewhere I have to include the -wp flag that you use when interacting with daemon
submitted by BrandonBryant12 to btc [link] [comments]

Bitcore v1.0.0: a Full Node and Development Platform

Bitcore v1.0.0: a Full Node and Development Platform submitted by bitjson to Bitcoin [link] [comments]

Gridcoin 4.0.5.0-Leisure "Elizabeth" Release

The core developers are pleased to present the 4.0.5.0 Elizabeth milestone leisure release. This is a leisure release primarily aimed at non-mandatory items and bug fixes leading up to the Fern mandatory milestone release.
This release also enables us to whitelist teams other than Gridcoin as a stepping stone for the implementation of no team requirement in Fern.
Enjoy!
https://github.com/gridcoin-community/Gridcoin-Research/releases/tag/4.0.5.0
Changelog...

Added

Changed

Removed

Fixed

submitted by jamescowens to gridcoin [link] [comments]

Bitcoin Unlimited - Bitcoin Cash edition 1.4.0.0 has just been released

Download the latest Bitcoin Cash compatible release of Bitcoin Unlimited (1.4.0.0, August 17th, 2018) from:
 
https://www.bitcoinunlimited.info/download
 
This release is a major release which is compatible with the Bitcoin Cash compatible with the Bitcoin Cash specifications you could find here:
 
A subsequent release containing the implementation of the November 2018 specification will be released soon after this one.
 
List of notable changes and fixes to the code base:
 
Release notes: https://github.com/BitcoinUnlimited/BitcoinUnlimited/blob/dev/doc/release-notes/release-notes-bucash1.4.0.0.md
 
Ubuntu PPA repository for BUcash 1.4.0.0 has been updated
submitted by s1ckpig to btc [link] [comments]

Era Swap Network White Paper

Era Swap Network White Paper

Era Swap Network

White Paper



DISCLAIMER
This Whitepaper is for Era Swap Network. Its purpose is solely to provide prospective community members with information about the Era Swap Ecosystem & Era Swap Network project. This paper is for information purposes only and does not constitute and is not intended to be an offer of securities or any other financial or investment instrument in any jurisdiction.
The Developers disclaim any and all responsibility and liability to any person for any loss or damage whatsoever arising directly or indirectly from (1) reliance on any information contained in this paper, (2) any error, omission or inaccuracy in any such information, or (3) any action resulting therefrom
Digital Assets are extremely high-risk, speculative products. You should be aware of the risks involved and fully consider before participating in Digital assets whether it’s appropriate for you. You should only participate if you are an experienced investor with sophisticated knowledge of financial markets and you fully understand the risks associated with digital assets. We strongly advise you to take independent professional advice before making any investment or participating in any way. You should check what rules and protections apply to your respective jurisdictions before investing or participating in any way. The Creators & community will not compensate you for any losses from trading, investment or participating in any way. You should read whitepaper carefully before participating and consider whether these products are right for you.

TABLE OF CONTENT

· Abstract
· Introduction to Era Swap Network
· Development Overview
· Era Swap Utility Platform
· Alpha-release Development Plan
· Era Swap Network Version 1: Specification
· Bunch Structure: 10
· Converting ES-ERC20 to ES-Na:
· Conclusion:
· Era Swap Ecosystem
· Social Links

Abstract

The early smart contracts of Era Swap Ecosystem like TimeAlly, Newly Released Tokens, Assurance, BetDeEx of Era Swap Ecosystem, are deployed on Ethereum mainnet. These smart contracts are finance-oriented (DeFi), i.e. most of the transactions are about spending or earning of Era Swap tokens which made paying the gas fees in Ether somewhat intuitive to the user (withdrawal charges in bank, paying tax while purchasing burgers) but transactions that are not token oriented like adding a nominee or appointee voting also needs Ether to be charged. As more Era Swap Token Utility platform ideas kept appending to the Era Swap Main Whitepaper, more non-financial transaction situations arise like updating status, sending a message, resolving a dispute and so on. Paying extensively for such actions all day and waiting for the transaction to be included in a block and then waiting for enough block confirmations due to potential chain re-organizations is counter-intuitive to existing free solutions like Facebook, Gmail. This is the main barrier that is stopping Web 3.0 from coming to the mainstream.
As alternatives to Ethereum, there are few other smart contract development platforms that propose their own separate blockchain that features for higher transaction throughput, but they compromise on decentralization for improving transaction speeds. Moreover, the ecosystem tools are most advancing in Ethereum than any other platform due to the massive developer community.
With Era Swap Network, the team aims to achieve scalability, speed and low-cost transactions for Era Swap Ecosystem (which is currently not feasible on Ethereum mainnet), without compromising much on trustless asset security for Era Swap Community users.

Introduction to Era Swap Network

Era Swap Network (ESN) aims to solve the above-mentioned problems faced by Era Swap Ecosystem users by building a side-blockchain on top of Ethereum blockchain using the Plasma Framework.
Era Swap Network leverages the Decentralisation and Security of Ethereum and the Scalability achieved in the side-chain, this solves the distributed blockchain trilema. In most of the other blockchains, blocks are a collection of transactions and all the transactions in one block are mined by a miner in one step. Era Swap Network will consist of Bunches of Blocks of Era Swap Ecosystem Transactions.

Decentralization

Layer 2


Scalable and Secure

A miner mines all the blocks in a bunch consequently and will commit the bunch-root to the ESN Plasma Smart Contract on Ethereum mainnet.

Development Overview
Initially, we will start with a simple Proof-of-Authority (PoA) based consensus of EVM to start the development and testing of Era Swap Ecosystem Smart Contracts as quickly as possible on the test-net. We will call this as an alpha-release of ESN test-net and only internal developers will work with this for developing smart contracts for Era Swap Ecosystem. User’s funds in a Plasma implementation with a simple consensus like PoA are still secured as already committed bunch-roots cannot be reversed.
Eventually, we want to arrive on a more control-decentralized consensus algorithm like Proof-of-Stake (PoS) probably, so that even if the chain operator shuts down their services, a single Era Swap Ecosystem user somewhere in the world can keep the ecosystem alive by running software on their system and similarly more people can join to decentralize the control further. In this PoS version, we will modify the Parity Ethereum client in such a way, that at least 50% of transaction fees collected will go to the Luck Pool of NRT Smart Contract on Ethereum mainnet and rest can be kept by miner of the blocks/bunch of blocks if they wish. After achieving such an implementation, we will release this as a beta version to the community for testing the software on their computers with Kovan ERC20 Era Swaps (Ethereum test-net).

Era Swap Decentralised Ecosystem
Following platforms are to be integrated:
  1. Era Swap Token Contract (adapted ERC20 on Ethereum) The original asset will lie on Ethereum to avoid loss due to any kind of failure in ESN.
  2. Plasma Manager Contract (on Ethereum) To store ESN bunch headers on Ethereum.
  3. Reverse Plasma Manager Contract (on ESN) Bridge to convert ES to ES native and ES native to ES. User deposits ES on Mainnet Plasma, gives proof on ESN and gets ES native credited to their account in a decentralised way.
  4. NRT Manager Contract (on Ethereum or on ESN) If it is possible to send ES from an ESN contract to luck pool of NRT Manager Contract on Ethereum, then it’s ok otherwise, NRT Manager will need to be deployed on ESN for ability to add ES to luck pool.
  5. Era Swap Wallet (React Native App for managing ESs and ES natives) Secure wallet to store multiple private keys in it, mainly for managing ES and ES native, sending ES or ES native, also for quick and easy BuzCafe payments.
  6. TimeAlly (on Ethereum or on ESN) On whichever chain NRT Manager is deployed, TimeAlly would be deployed on the same chain.
  7. Assurance (on Ethereum or on ESN) On whichever chain NRT Manager is deployed, TimeAlly would be deployed on the same chain.
  8. DaySwappers (on ESN) KYC manager for platform. For easily distributing rewards to tree referees.
  9. TimeSwappers (on ESN) Freelance market place with decentralised dispute management.
  10. SwappersWall (on ESN) Decentralised social networking with power tokens.
  11. BuzCafe (on ESN) Listing of shops and finding shops easily and quick payment.
  12. BetDeEx (on ESN) Decentralised Prediction proposals, prediction and results.
  13. DateSwappers (on ESN) Meeting ensured using cryptography.
  14. ComputeEx (on Ethereum / centralised way) Exchange assets.
  15. Era Swap Academy (on ESN / centralised way) Learn. Loop. Leap. How to implement ES Academy is not clear. One idea is if content is constantly being modified, then subscription expired people will only have the hash of old content while new content hash is only available to people who have done Dayswapper KYC and paid for the course. Dayswapper KYC is required because this way people won’t share their private keys to someone else.
  16. Value of Farmers (tbd) The exchange of farming commodities produced by farmers in VoF can be deposited to warehouses where the depositors will get ERC721 equivalent tokens for their commodities (based on unique tagging).
  17. DeGameStation (on ESN) Decentralised Gaming Station. Games in which players take turns can be written in Smart Contract. Games like Chess, Poker, 3 Patti can be developed. Users can come to DeGameStation and join an open game or start a new game and wait for other players to join.

Alpha-release Development Plan
  1. Deploying Parity Node customized according to Era Swap Whitepaper with PoA consensus.
  2. Setting up Plasma Smart Contracts.
  3. Creating a bridge for ERC20 Swap from Ethereum test-net to ESN alpha test-net.

Alpha Version
Era Swap Network Version 1 : Specification
The Version 1 release of ESN plans to fulfill the requirements for political decentralisation and transparency in dApps of Era Swap Ecosystem using Blockchain Technology. After acquiring sufficient number of users, a version 2 construction of ESN will be feasible to enable administrative decentralization, such that the Era Swap Ecosystem will be run and managed by the Era Swap Community and will no longer require the operator to support for it's functioning.
Era Swap Network (ESN) Version 1 will be a separate EVM-compatible sidechain attached to Ethereum blockchain as it’s parent chain. ESN will achieve security through Plasma Framework along with Proof-of-Authority consensus for faster finality. The idea behind plasma framework is to avoid high transaction fees and high transaction confirmation times on Ethereum mainnet by instead doing all the ecosystem transactions off-chain and only post a small information to an Ethereum Smart Contract which would represent hash of plenty of ecosystem transactions. Also, to feature movement of Era Swap Tokens from Ethereum blockchain to ESN using cryptographic proof, reverse plasma of Ethereum on ESN will be implemented.
Also, submitting hash of each ESN blocks to ESN Plasma Smart Contract on Ethereum would force ESN to have a block time equal to or more than Ethereum’s 15 second time as well as it would be very much costly for operator to post lot of hashes to an Ethereum Smart Contract. This is why, merkle root of hashes of bunch of blocks would instead be submitted to ESN Plasma Smart Contact on Ethereum.
Actors involved in the ESN:
  1. Block Producer Nodes Lesser the number of nodes, quicker is the block propagation between block producers which can help quick ecosystem transactions. We find that 7 block producers hosted on different could hosting companies and locations reduces the risk of single point of failure of Era Swap Ecosystem and facilitates 100% uptime of dApps. Block Producer Nodes will also be responsible to post the small information to the Blockchain.
  2. Block Listener Nodes Rest of the nodes will be Block Listeners which will sync new blocks produced by the block producer nodes. Plenty of public block listener nodes would be setup in various regions around the world for shorter ping time to the users of Era Swap Ecosystem. Users would submit their Era Swap Ecosystem transactions to one of these public nodes, which would relay them to rest of the Era Swap Network eventually to the block producer nodes which would finalize a new block including the user transaction.
  3. Bunch Committers This will be an instance in the block producers which will watch for new blocks confirmed on ESN and will calculate bunch merkle roots and will submit it to ESN Plasma Smart Contract. This instance will also post hash of new Ethereum blocks to ESN (after about 10 confirmations) for moving assets between both the blockchain.
  4. Users These will be integrating with dApps which would be connected to some public ESN nodes or they can install a block listner node themselves. They can sign and send transactions to the node which they are connected to and then that node will relay their transactions to block producer nodes who would finalise a block including their transaction.

Bunch Structure

A Bunch Structure in Smart Contract will consist of the following:
• Start Block Number: It is the number of first ESN block in the bunch.
• Bunch Depth: It is Merkle Tree depth of blocks in the bunch. For e.g. If bunch depth is 3, there would be 8 blocks in the bunch and if bunch depth is 10, there would be 1024 blocks in the bunch. Bunch depth of Bunches on ESN Plasma Contract is designed to be variable. During the initial phases of ESN, it would be high, for e.g. 15, to avoid ether expenditure and would be decreased in due course of time.
• Transactions Mega Root: This value is the merkle root of all the transaction roots in the bunch. This is used by Smart Contract to verify that a transaction was sent on the chain.
• Receipts Mega Root: This value is the merkle root of all the receipt roots in the bunch. This is used to verify that the transaction execution was successful.
• Timestamp: This value is the time when the bunch proposal was submitted to the smart contract. After submission, there is a challenge period before it is finalised.

Converting ES-ERC20 to ERC-NA and BACK

On Ethereum Blockchain, the first class cryptocurrency is ETH and rest other tokens managed by smart contracts are second class. On ESN, there is an advancement to have Era Swaps as the first class cryptocurrency. This cryptocurrency will feature better user experience and to differentiate it from the classic ERC20 Era Swaps, it will be called as Era Swap Natives (ES-Na). According to the Era Swap Whitepaper, maximum 9.1 Million ES will exist which will be slowly released in circulation every month.
Era Swaps will exist as ES-ERC20 as well as in form of ES-Na. One of these can be exchanged for the other at 1:1 ratio.
Following is how user will convert ES-ERC20 to ES-Na:
  1. User will give allowance to a Deposit Smart Contract, and following that call deposit method to deposit tokens to the contract.
  2. On transaction confirmation, user will paste the transaction hash on a portal which will generate a Proof of Deposit string for the user. This string is generated by fetching all the transactions in the Ethereum Block and generating a Transaction Patricia Merkle Proof to prove that user’s transaction was indeed included in the block and the Receipts Patricia Merkle Proof to confirm that the user’s transaction was successful.
  3. Using the same portal, user will submit the generated proofs to a Smart Contract on ESN, which would release funds to user. Though, user will have to wait for the Etheruem block roots to be posted to ESN after waiting for confirmations which would take about 3 minutes. Once, it’s done user’s proofs will be accepted and will receive exact amount of ES- Na on ESN.
Following is how user will convert ES-Na to ES-ERC20:
  1. ES-Na being first class cryptocurrency, user will simply send ES-Na to a contract.
  2. User will paste the transaction hash on a portal which will generate a Proof of Deposit for the user. Again ES-Na being first class cryptocurrency, Transaction Patricia Merkle Proof is enough to prove that user’s transaction was indeed included in the block. Another thing which will be generated is the block inclusion proof in the bunch.
  3. User will have to wait for the bunch confirmation to the Plasma Smart Contract and once it’s done, user can send the proof to the Plasma Smart Contract to receive ES-ERC20.

HARD Exit

Since the blocks are produced and transactions are validated by few block producers, it exposes a possibility for fraud by controlling the block producer nodes. Because ESN is based on the Plasma Model, when failure of sidechain occurs or the chain halts, users can hard exit their funds directly from the Plasma Smart Contract on Ethereum by giving a Proof of Holdings.

HOld ES Tokens Swapping with New ES Tokens

The old ES Tokens will be valueless as those tokens will not be accepted in ESN because of NRT (New Released Tokens) and TimeAlly contracts on mainnet which is causing high gas to users, hence reducing interactions. Also, there was an event of theft of Era Swap Tokens and after consensus from majority of holders of Era Swap Tokens; it was decided to create a new contract to reverse the theft to secure the value of Era Swap Tokens of the community. Below is the strategy for swapping tokens:
TimeAlly and TSGAP: Majority of Era Swap Community have participated in TimeAlly Smart Contract in which their tokens are locked for certain period of time until which they cannot move them. Such holders will automatically receive TimeAlly staking of specific durations from the operator during initialization of ESN.
Liquid Tokens: Holders of Liquid Era Swap Tokens have to transfer the old tokens to a specified Ethereum wallet address managed by team. Following that, team will audit the token source of the holder (to eliminate exchange of stolen tokens) and send new tokens back to the wallet address.

Post-Genesis Tokens Return Program

Primary asset holding of Era Swap tokens will exist on Ethereum blockchain as an ERC20 compatible standard due to the highly decentralised nature of the blockchain. Similar to how users deposit tokens to an cryptocurrency exchange for trading and then withdraw the tokens back, users will deposit tokens to ESN Contract to enter Era Swap Ecosystem and they can withdraw it back from ESN Contract for exiting from ecosystem network. The design of the token system will be such that, it will be compatible with the future shift (modification or migration of ESN version 1) to ESN version 2, in which an entirely new blockchain setup might be required.
To manage liquidity, following genesis structure will be followed:

Holder ES-ERC20 ES-Na
Team Wallet 1.17 billion (Circulating Supply) 0
Locked in Smart Contract 7.93 billion (pending NRT releases) 9.1 billion
Though it looks like there are 9.1 * 2 = 18.2 Billion ES, but the cryptographic design secures that at any point in time at least a total of 9.1 billion ES (ES-ERC20 + ES-Na) will be locked. To unlock ES-Na on ESN, an equal amount of ES-ERC20 has to be locked on Ethereum and vice-versa.
9.1 billion ES-ERC20 will be issued by ERC20 smart contract on Ethereum Blockchain, out of which the entire circulating supply (including liquid and TimeAlly holdings) of old ES will be received to a team wallet.
TimeAlly holdings of all users will be converted to ES-Na and distributed on ESN TimeAlly Smart Contract by team to the TimeAlly holders on their same wallet address.
Liquid user holdings will be sent back to the users to the wallet address from which they send back old ES tokens (because some old ES are deposited on exchange wallet address).
ES-Na will be issued in the genesis block to an ESN Manager Smart Contract address. It will manage all the deposits and withdrawals as well as NRT releases.

Attack Vectors


Following are identified risks to be taken care of during the development of ESN:
Network Spamming: Attackers can purchase ES from the exchange and make a lot of transactions between two accounts. This is solved by involving gas fees. A setting of 200 nanoES minimum gas price will be set, which can be changed as per convenience.
DDoS: Attackers can query public nodes for computationally heavy output data. This will overload the public node with requests and genuine requests might get delayed. Block producers RPC is private, so they will continue to produce blocks. To manage user’s denial of service, the provider in dApps needs to be designed in such a way such that many public nodes will be queried simple information (let’s say latest block number) and the one which response quickly to user will be selected.
AWS is down: To minimize this issue due to cloud providers down, there will be enough nodes on multiple cloud providers to ensure at least one block producer is alive.
User deposit double spending: User deposits ES on Ethereum, gets ES-Na on ESN. Then the issue happens that there are re-org on ETH mainnet and the user’s transaction is reversed. Since ETH is not a fixed chain and as per PoW 51% attack can change the blocks. As Ethereum is now enough mature and by statistics forked blocks are at most of height 2. So it is safe to consider 15 confirmations.
Exit Game while smooth functioning: User starts a hard exit directly from Plasma Smart Contract on Ethereum, then spends his funds from the plasma chain too. To counter this, the exit game will be disabled, only when ESN halts, i.e. fails to submit block header within the time the exit game starts. This is because it is difficult to mark user’s funds as spent on ESN.
Vulnerability in Ecosystem Smart Contracts: Using traditional methods to deploy smart contracts results in a situation where if a bug is found later, it is not possible to change the code. Using a proxy construction for every ecosystem smart contract solves this problem, and changing a proxy can be given to a small committee in which 66% of votes are required, this is to prevent a malicious change of code due to compromising of a single account or similar scenario.
ChainID replay attacks: Using old and traditional ways to interact with dApps can cause loss to users, hence every dApp will be audited for the same.

Conclusion

Era Swap Network is an EVM-compatible sidechain attached to the Ethereum blockchain through Plasma Framework. This allows off-chain processing of Era Swap Ecosystem transactions and posting only the hash of the bunch to Ethereum. This greatly reduces the high network fee and confirmation time issues faced by the current Era Swap Ecosystem DApps deployed on Ethereum. Also, having a separate EVM-compatible blockchain tailored to Era Swap Ecosystem improves the user experience to a higher extent. Since by design, Plasma Framework makes the Era Swap Network as secure as the Ethereum Network, user's funds on the network would be secure as well.
We believe Era Swap Network will help scale dApps of Era Swap Ecosystem to onboard the increasing numbers of users.


Era Swap Ecosystem
Era Swap Ecosystem consist of multiple interlinked platforms which is powered by Era swap (ES) token, a decentralized utility token to be used on below utility platforms. Users can access the Platforms through Era Swap Life which is the Single Sign on (SSO) gateway to the one world of Era Swap Ecosystem.
Era Swap Life: https://eraswap.life/
TimeAlly DApp -> Decentralized Token Vesting: https://www.timeally.io/
BetDeEx -> Decentralized prediction platform: https://www.betdeex.com/
Swappers Wall -> Social Time Ledgerise: https://timeswappers.com/swapperswall
TimeSwappers -> Global P2P marketplace: https://timeswappers.com/
BuzCafe -> Connects local P2P outlets: https://buzcafe.com/
DaySwappers -> Unique Affiliate Program: https://dayswappers.com/
Era Swap Academy -> E-mart for skill development: https://eraswap.academy/
Value of Farmers (VOF) -> Farming ecosystem: http://valueoffarmers.org/ coming soon
ComputeEx -> P2P lending and borrowing: https://computeex.net/ coming soon
DateSwappers -> Next gen dating: coming soon
Smart Contract address

Era Swap Token (ES)
https://etherscan.io/address/0xef1344bdf80bef3ff4428d8becec3eea4a2cf574#code

Newly Released Token (NRT) https://etherscan.io/address/0x20ee679d73559e4c4b5e3b3042b61be723828d6c#code

TimeAlly DApp
https://etherscan.io/address/0x5630ee5f247bd6b61991fbb2f117bbeb45990876#code

BetDeEx DApp https://etherscan.io/address/0x42225682113E6Ed3616B36B4A72BbaE376041D7c#code
TSGAP DApp
https://etherscan.io/address/0xbad9af4db5401b7d5e8177a18c1d69c35fc03fd3#code

White Paper
Era Swap Whitepaper: https://eraswaptoken.io/pdf/eraswap_whitepaper.pdf
Era Swap Light Paper: https://eraswaptoken.io/pdf/eraswap_lightpaper.pdf

Howey Test
Howey Test: https://eraswaptoken.io/era-swap-howey-test-letter-august7-2018.php

Era Swap SOCIAL LINKS
Telegram: https://t.me/eraswap
Twitter: https://twitter.com/eraswaptec
Facebook: https://www.facebook.com/eraswap/
Instagram: https://www.instagram.com/eraswap/
BitcoinTalk: https://bitcointalk.org/index.php?topic=5025979.msg45502457
Youtube: https://www.youtube.com/channel/UCGCP4f5DF1W6sbCjS6y3T1g
LinkedIn: https://www.linkedin.com/company/eraswap/
Reddit: https://www.reddit.com/useEraSwap
Medium: https://medium.com/@eraswap
Tumblr: https://eraswap.tumblr.com/
Mix: https://mix.com/eraswap
Pinterest: https://www.pinterest.com/eraswapt/
GitHub: https://github.com/KMPARDS/EraSwapSmartContracts
submitted by EraSwap to u/EraSwap [link] [comments]

Bitcoin Hack 30 BTC Free Bitcoin Mining Blockchain Script Hack Giveaway Bitcoin Hack 14.01.2020 Working method !! -Gadget Express ... How to Hack Bitcoin Private Key  Working Method  Legit  2020 Bitcoin Hack Private key on PC 2020 Bitcoin Mining Complete Guide & Tutorial (EASIEST METHOD ...

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