Registered since September 28th, 2017
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Tag selected: golang.
Saved by uncleflo on January 4th, 2019.
go-daemon Build Status GoDoc. Library for writing system daemons in Go. Now supported only UNIX-based OS (Windows is not supported). But the library was tested only on Linux and OSX, so that if you have an ability to test the library on other platforms, give me feedback, please (#26). Features: Goroutine-safe daemonization; Out of box work with pid-files; Easy handling of system signals; The control of a daemon.
daemon desktop chrome compatibility unix recommend backward jump commit os execution manage parent perform windows administrator development developer go golang support system writing status library feature signal control
Saved by uncleflo on February 19th, 2018.
Covered in this tutorial: Creating a data structure with load and save methods; Using the net/http package to build web applications; Using the html/template package to process HTML templates; Using the regexp package to validate user input; Using closures. Assumed knowledge: Programming experience; Understanding of basic web technologies (HTTP, HTML); Some UNIX/DOS command-line knowledge;
Saved by uncleflo on December 28th, 2017.
ING's zero knowledge range-proof precompiled contract for the go-ethereum client. One fundamental concern in blockchain technology is the confidentiality of the data on the blockchain. In order to reach consensus between all independent nodes in a blockchain network, each node must be able to validate all transactions (for instance against double-spent), in most cases this means that the content of the transactions is visible to all nodes. Fortunately several solutions exist that preserve confidentiality on a blockchain (private transactions, HyperLedger Fabric Channels, Payment Channels, Homomorphic encryption, transaction-mixing, zero knowledge proofs etc.). This article describes the implementation of a zero-knowledge range-proof in Ethereum. The zero knowledge range proof allows the blockchain network to validate that a secret number is within known limits without disclosing the secret number. This is useful to reach consensus in a variety of use cases: Validate that someone's age is between 18 and 65 without disclosing the age; Validate that someone is in Europe without disclosing the exact location; Validate that a payment-amount is positive without disclosing the amount (as done by Monero). The zero-knowledge range-proof requires a commitment on a number by a trusted party (for instance a government committing on someone's age), an Ethereum-user can use this commitment to generate a range-proof. The Ethereum network will verify this proof.
official golang implementation ethereum cryptocurrency library zero range proof validation commit verify transaction encryption description knowledge blockchain network number limit europe location disclose trust solution confidential ing payment
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