CESS_NetworkCESS Attended the HK Web3 Month Conference: Building the Web3 Data Value Network
The HK Web3 Month, spanning from October 29 to November 18, featured an in-person conference held in Hong Kong from November 6 to 7. The event sought to bring together industry pioneers to delve into the developing Web3 economy in the Asia-Pacific region. Activities like “Polkadot HK Day,” “Ethereum HK Day: Road to DevCon,” and “Polygon HK Day: Ushering Polygon 2.0,” each centred around distinct ecosystems, garnered significant attention and participation from the Web3 industry.CESS (Cumulus ...
CESS_NetworkWeekly Report | Aug 26th — Sep 1st, 2024
Weekly HighlightsThe cross-chain mechanism of the CESS chain was tested, successfully achieving token transfer across the CESS and Ethereum test chains.Various proof algorithm modules for storage nodes were improved, resolving issues where nodes could not submit idle space proofs and validate inservice storage proofs.The CESS Merkle event went live this week, offering participants a chance to win a “Navigator” and share mysterious prizes!CESS hosted the IEEE P3233 Standard Launch Meeting with...
CESS_NetworkWeekly Report | Oct 23rd — 29th, 2023
Weekly HighlightsEnhanced the economic model with a new treasury token management pallet.Improved idle space proof with manual recovery and active state synchronization for stability.Optimized DeOSS’s user file metadata caching and bitswap data transmission.Launching testnet v0.7.4.Nominated for Prime Vote to be listed on Huobi. 300,000 USDT prize pool, vote for us!!Project Development Details:Current testnet: V0.7.3 consists of consensus and storage nodes. Consensus nodes maintain the worl...
CESS is a blockchain powered decentralized storage and content decentralized delivery network (CD²N) infrastructure for Web3.
CESS_NetworkCESS Attended the HK Web3 Month Conference: Building the Web3 Data Value Network
The HK Web3 Month, spanning from October 29 to November 18, featured an in-person conference held in Hong Kong from November 6 to 7. The event sought to bring together industry pioneers to delve into the developing Web3 economy in the Asia-Pacific region. Activities like “Polkadot HK Day,” “Ethereum HK Day: Road to DevCon,” and “Polygon HK Day: Ushering Polygon 2.0,” each centred around distinct ecosystems, garnered significant attention and participation from the Web3 industry.CESS (Cumulus ...
CESS_NetworkWeekly Report | Aug 26th — Sep 1st, 2024
Weekly HighlightsThe cross-chain mechanism of the CESS chain was tested, successfully achieving token transfer across the CESS and Ethereum test chains.Various proof algorithm modules for storage nodes were improved, resolving issues where nodes could not submit idle space proofs and validate inservice storage proofs.The CESS Merkle event went live this week, offering participants a chance to win a “Navigator” and share mysterious prizes!CESS hosted the IEEE P3233 Standard Launch Meeting with...
CESS_NetworkWeekly Report | Oct 23rd — 29th, 2023
Weekly HighlightsEnhanced the economic model with a new treasury token management pallet.Improved idle space proof with manual recovery and active state synchronization for stability.Optimized DeOSS’s user file metadata caching and bitswap data transmission.Launching testnet v0.7.4.Nominated for Prime Vote to be listed on Huobi. 300,000 USDT prize pool, vote for us!!Project Development Details:Current testnet: V0.7.3 consists of consensus and storage nodes. Consensus nodes maintain the worl...
CESS is a blockchain powered decentralized storage and content decentralized delivery network (CD²N) infrastructure for Web3.
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CESS (Cumulus Encrypted Storage System) is a blockchain powered decentralized storage and content delivery network (CDN) infrastructure for Web3. Users and creators alike use the platform for on-chain data sharing, whilst builders can develop and deploy DApps.
Offering the most optimal Web3 solution for storing and retrieving high-frequency dynamic data, CESS reshapes the value distribution and circulation of data assets whilst ensuring data sovereignty and user privacy. By utilizing a decentralized physical infrastructure network (DePIN) model, CESS drives mass deployment of network nodes globally through incentives.
CESS network consists of four layers: Blockchain Layer, Distributed Storage Resource Layer , Distributed Content Delivery Layer, and Application Layer. CESS’s R²S consensus mechanism coordinates the network resources and network load, guarantees data security and integrity through proprietary technologies with data ownership protection, technologies such as Proof of Data Reduplication and Recovery (PoDR²), Multi-format Data Rights Confirmation (MDRC), and decentralized proxy re-encryption. CESS aims to be the first decentralized storage network that supports large-scale commercial applications.
CESS is also compatible with EVM and WASM, and the underlying development framework Substrate is also friendly to cross-chain applications. Its technology stack can support most Web3 applications and the development needs of enterprise-level applications.
Current testnet: v0.7.5 consists of consensus and storage nodes. Consensus node maintain the world state of the CESS network (by CESS Node) and serves as the “data authentication station” (by TEE Worker). Storage node provide verifiable storage space and serve as the “data storage pool” in the CESS network.
Consensus Nodes [v0.7.5]
Fixed issues with deploying consensus nodes using nodeadm v1.5.2.
Resolved compilation issues after merging CESS Node and TEE Worker repositories.
Fixed challenges in awarding random challenge rewards due to insufficient treasury funds.
Addressed the issue of TEE Worker’s shared key not being effectively activated after codebase refactoring.
Fixed RPC node connection issues due to exceeding the default connection limit.
Rectified CESS Node’s delayed clearing of the records of invalid random challenge penalty counts.
Updated CESS Chain token length from 12 to 18 digits for better compatibility with Ethereum tokens.
Achieved compatibility of CESS Chain with MetaMask wallet, enhancing user experience.
Completed CESS Node online upgrade, updating the maximum limit of random challenge penalty counts to 42 for the latest economic model optimization.
Complete authoring and testing of benchmarks for all CESS Node pallets.
Upgraded TEE Worker key-sharing module using on-chain encrypted channels for increased security and stability.
Enhanced nodeadm program to adapt to the deployment requirements of various TEE Worker types.
Introduced a cooldown mechanism for pledge redemption, requiring a 180-day cooldown period for storage nodes forcibly removed from the network.
Wrote README documentation for CESS Node pallets such as storage-handler.
Wrote a user guide for TEE Worker, including an introduction to TEE Worker types, deployment methods, and principles.
Storage Nodes [v0.7.8]
Updated the gRPC communication module to adapt to the latest version of TEE Worker’s interaction requirements.
Introduced the ability to save idle space proof keys to reduce on-chain queries for key retrieval.
Fixed an issue where querying the starting pledge block height failed when using non-signing accounts for node pledging.
Conducted stress tests on storage node file uploads using automated scripts, ensuring optimal node storage service status.
Added display of declared space and liability information in the stat command.
Introduced the space sub-command in the increased command for appending storage space.
Fixed issues with querying random challenges and reward profit information.
Fixed the reporting of state to the blockchain after calculating active file tags.
Added the capability for storage nodes to actively reject receiving invalid user files to prevent resource wastage.
Updated storage node stat command to display information about the starting pledge block height.
Wrote and tested a user operation manual for deploying multiple storage node containers on a single machine.
Optimized storage node transaction sending mechanism for proactive verification of transaction success on-chain in case of abnormal results.
CESS is a blockchain powered decentralized storage and content delivery network (CDN) infrastructure for Web3. By utilizing a decentralized physical infrastructure network (DePIN) model, CESS drives mass deployment of network nodes globally through incentives. The first of its kind, decentralized object storage services (DeOSS) by CESS has significantly contributed to the gradual enrichment and flourishing of the product ecosystem within the CESS network, online file sharing tool (DeShare), and public chain snapshot storage services have been incubated. The developments for this month are as follows:
DeOSS (Decentralized Object Storage Service)
Added go-sdk functionality for parsing block timestamps.
The new functionality in the go-sdk allows querying the start time (block height) of the storage node staking.
Introduced special character filtering for user file names to prevent display issues.
Added file chunk upload and breakpoint resume functionality to improve the efficiency and stability of large file transfers.
Enhanced the event parsing functionality in the go-sdk, now supporting the parsing of all system transaction events on the blockchain.
Improved the authentication method by removing the token authorization application and transitioning to a unified approach using wallet account authentication.
Updated user operation guide with examples for all API requests based on the latest DeOSS version.
Optimized file scheduling mechanism to prioritize distribution to storage nodes with good download service performance.
Optimized token verification mechanism in the file upload process, enhancing judgment and handling of various exceptional situations.
Fixed issues related to RPC connection failures causing DeOSS to fail to set blockchain status.
Upgraded the file upload process to reduce transaction failures due to insufficient user space.
Upgraded go-sdk transaction sending module, adding a 6-second wait time after transaction submission to await confirmation in the blockchain.
Substats (Blockchain Explorer)
Completed design and creation of backend database tables for version 2.0.
Completed development of backend transaction parsing functionality for version 2.0.
DeShare (Files sharing URL generator Tool)
Upgraded the backend email module to support sending file names, download links, and other information to user-specified email addresses for uploaded files.
Completed the development and launch of the new version’s pages.
GitHub: https://github.com/CESSProject
Wiki: https://docs.cess.cloud/core/
CIPs: https://github.com/CESSProject/CIPs
CESS website | Twitter | Telegram | Discord | Github | Medium | LinkedIn | Instagram|YouTube
CESS (Cumulus Encrypted Storage System) is a blockchain powered decentralized storage and content delivery network (CDN) infrastructure for Web3. Users and creators alike use the platform for on-chain data sharing, whilst builders can develop and deploy DApps.
Offering the most optimal Web3 solution for storing and retrieving high-frequency dynamic data, CESS reshapes the value distribution and circulation of data assets whilst ensuring data sovereignty and user privacy. By utilizing a decentralized physical infrastructure network (DePIN) model, CESS drives mass deployment of network nodes globally through incentives.
CESS network consists of four layers: Blockchain Layer, Distributed Storage Resource Layer , Distributed Content Delivery Layer, and Application Layer. CESS’s R²S consensus mechanism coordinates the network resources and network load, guarantees data security and integrity through proprietary technologies with data ownership protection, technologies such as Proof of Data Reduplication and Recovery (PoDR²), Multi-format Data Rights Confirmation (MDRC), and decentralized proxy re-encryption. CESS aims to be the first decentralized storage network that supports large-scale commercial applications.
CESS is also compatible with EVM and WASM, and the underlying development framework Substrate is also friendly to cross-chain applications. Its technology stack can support most Web3 applications and the development needs of enterprise-level applications.
Current testnet: v0.7.5 consists of consensus and storage nodes. Consensus node maintain the world state of the CESS network (by CESS Node) and serves as the “data authentication station” (by TEE Worker). Storage node provide verifiable storage space and serve as the “data storage pool” in the CESS network.
Consensus Nodes [v0.7.5]
Fixed issues with deploying consensus nodes using nodeadm v1.5.2.
Resolved compilation issues after merging CESS Node and TEE Worker repositories.
Fixed challenges in awarding random challenge rewards due to insufficient treasury funds.
Addressed the issue of TEE Worker’s shared key not being effectively activated after codebase refactoring.
Fixed RPC node connection issues due to exceeding the default connection limit.
Rectified CESS Node’s delayed clearing of the records of invalid random challenge penalty counts.
Updated CESS Chain token length from 12 to 18 digits for better compatibility with Ethereum tokens.
Achieved compatibility of CESS Chain with MetaMask wallet, enhancing user experience.
Completed CESS Node online upgrade, updating the maximum limit of random challenge penalty counts to 42 for the latest economic model optimization.
Complete authoring and testing of benchmarks for all CESS Node pallets.
Upgraded TEE Worker key-sharing module using on-chain encrypted channels for increased security and stability.
Enhanced nodeadm program to adapt to the deployment requirements of various TEE Worker types.
Introduced a cooldown mechanism for pledge redemption, requiring a 180-day cooldown period for storage nodes forcibly removed from the network.
Wrote README documentation for CESS Node pallets such as storage-handler.
Wrote a user guide for TEE Worker, including an introduction to TEE Worker types, deployment methods, and principles.
Storage Nodes [v0.7.8]
Updated the gRPC communication module to adapt to the latest version of TEE Worker’s interaction requirements.
Introduced the ability to save idle space proof keys to reduce on-chain queries for key retrieval.
Fixed an issue where querying the starting pledge block height failed when using non-signing accounts for node pledging.
Conducted stress tests on storage node file uploads using automated scripts, ensuring optimal node storage service status.
Added display of declared space and liability information in the stat command.
Introduced the space sub-command in the increased command for appending storage space.
Fixed issues with querying random challenges and reward profit information.
Fixed the reporting of state to the blockchain after calculating active file tags.
Added the capability for storage nodes to actively reject receiving invalid user files to prevent resource wastage.
Updated storage node stat command to display information about the starting pledge block height.
Wrote and tested a user operation manual for deploying multiple storage node containers on a single machine.
Optimized storage node transaction sending mechanism for proactive verification of transaction success on-chain in case of abnormal results.
CESS is a blockchain powered decentralized storage and content delivery network (CDN) infrastructure for Web3. By utilizing a decentralized physical infrastructure network (DePIN) model, CESS drives mass deployment of network nodes globally through incentives. The first of its kind, decentralized object storage services (DeOSS) by CESS has significantly contributed to the gradual enrichment and flourishing of the product ecosystem within the CESS network, online file sharing tool (DeShare), and public chain snapshot storage services have been incubated. The developments for this month are as follows:
DeOSS (Decentralized Object Storage Service)
Added go-sdk functionality for parsing block timestamps.
The new functionality in the go-sdk allows querying the start time (block height) of the storage node staking.
Introduced special character filtering for user file names to prevent display issues.
Added file chunk upload and breakpoint resume functionality to improve the efficiency and stability of large file transfers.
Enhanced the event parsing functionality in the go-sdk, now supporting the parsing of all system transaction events on the blockchain.
Improved the authentication method by removing the token authorization application and transitioning to a unified approach using wallet account authentication.
Updated user operation guide with examples for all API requests based on the latest DeOSS version.
Optimized file scheduling mechanism to prioritize distribution to storage nodes with good download service performance.
Optimized token verification mechanism in the file upload process, enhancing judgment and handling of various exceptional situations.
Fixed issues related to RPC connection failures causing DeOSS to fail to set blockchain status.
Upgraded the file upload process to reduce transaction failures due to insufficient user space.
Upgraded go-sdk transaction sending module, adding a 6-second wait time after transaction submission to await confirmation in the blockchain.
Substats (Blockchain Explorer)
Completed design and creation of backend database tables for version 2.0.
Completed development of backend transaction parsing functionality for version 2.0.
DeShare (Files sharing URL generator Tool)
Upgraded the backend email module to support sending file names, download links, and other information to user-specified email addresses for uploaded files.
Completed the development and launch of the new version’s pages.
GitHub: https://github.com/CESSProject
Wiki: https://docs.cess.cloud/core/
CIPs: https://github.com/CESSProject/CIPs
CESS website | Twitter | Telegram | Discord | Github | Medium | LinkedIn | Instagram|YouTube
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