Group members management¶
FISCO BCOS introduces free nodes, observer nodes and consensus nodes which can be converted to each other by the console.
- Group member
- Consensus nodes (Sealer)
- Observer nodes (Observer)
- Non-Group member
- Free nodes (The node waiting for joining the group)
The console provides three commands of AddSealer, AddObserver, and RemoveNode to convert the specified node to Sealer, Oberserver, and RemoveNode, and can use getSealerList, getObserverList, and getNodeIDList to view the current list of Sealer, Observer, and other nodes.
- addSealer: to set the corresponding node as the Sealer according to the NodeID;
- addObserver: to set the corresponding node as the Observer according to the NodeID;
- removeNode: to set the corresponding node as the RemoveNode according to the NodeID;
- getSealerList: to view the Sealer in the group;
- getObserverList: to view the Observer in the group;
- getNodeIDList: to view the NodeID in the group;
For example, to convert the specified nodes to Sealer, Observer, and RemoveNode, the main operation commands are as follows:
Before accessing the node, please ensure that:
- Node ID exists and can execute cat that is getting from conf/node.nodeid in the node directory
- All Sealers are normal, and they will output +++ logs.
# to set the node in the ~/fisco/nodes/192.168.0.1/node0 directory $ mkdir -p ~/fisco && cd ~/fisco # to get Node ID (to set the directory as ~/nodes/192.168.0.1/node0/） $ cat ~/fisco/nodes/192.168.0.1/node0/conf/node.nodeid 7a056eb611a43bae685efd86d4841bc65aefafbf20d8c8f6028031d67af27c36c5767c9c79cff201769ed80ff220b96953da63f92ae83554962dc2922aa0ef50 # to connect console (to set the console in the ~/fisco/console directory) $ cd ~/fisco/console $ bash start.sh # to convert the specified node to Sealer [group:1]> addSealer 7a056eb611a43bae685efd86d4841bc65aefafbf20d8c8f6028031d67af27c36c5767c9c79cff201769ed80ff220b96953da63f92ae83554962dc2922aa0ef50 # to view the list of Sealer [group:1]> getSealerList [ 7a056eb611a43bae685efd86d4841bc65aefafbf20d8c8f6028031d67af27c36c5767c9c79cff201769ed80ff220b96953da63f92ae83554962dc2922aa0ef50 ] # to convert the specified node to Observer [group:1]> addObserver 7a056eb611a43bae685efd86d4841bc65aefafbf20d8c8f6028031d67af27c36c5767c9c79cff201769ed80ff220b96953da63f92ae83554962dc2922aa0ef50 # to view the list of Observer [group:1]> getObserverList [ 7a056eb611a43bae685efd86d4841bc65aefafbf20d8c8f6028031d67af27c36c5767c9c79cff201769ed80ff220b96953da63f92ae83554962dc2922aa0ef50 ] # to convert the specified node to removeNode [group:1]> removeNode 7a056eb611a43bae685efd86d4841bc65aefafbf20d8c8f6028031d67af27c36c5767c9c79cff201769ed80ff220b96953da63f92ae83554962dc2922aa0ef50 # to view the list of NodeID [group:1]> getNodeIDList [ 7a056eb611a43bae685efd86d4841bc65aefafbf20d8c8f6028031d67af27c36c5767c9c79cff201769ed80ff220b96953da63f92ae83554962dc2922aa0ef50 ] [group:1]> getSealerList  [group:1]> getObserverList 
The following describes the operations of group expansion and node exit in detail with specific operation cases. Group expansion is divided into two phases, namely adding nodes to the network and adding nodes to the group. Also, node exit is divided into two phases, namely exiting node from the group and exiting node from the network.
- Node configuration modification: After the node modifies its own configuration, it need to be restarted to takes effect. The involved operations include network adding/exit and CA blacklist inclusion/removal.
- Transaction uploading to the chain: To modify the transaction, the configuration of group consensus is needed, and the operation involves the modification of node type. The current sending transaction path is the pre-compiled service interface provided by the console and SDK.
- RPC inquiry：To use the command curl to inquire the information on the chain, and the operation involves the query of the group node.
In this section, the following figure is taken as an example to describe the operations of expansion and network exit show above.
The dotted line indicates that network communication can be performed among nodes, and the solid line indicates that nodes have group relationships base on the communication among nodes, and colors’ difference distinguish different group relationships.
The below figure below shows a network with three groups of which Group3 has three nodes. Whether Group3 has intersection nodes with other groups does not affect the versatility of the following operation process.
The folder name of node 1 is
node0, IP port 127.0.0.1:30400, the former 4 bytes of nodeID b231b309…
The folder name of node 2 is
node1, IP port 127.0.0.1:30401, the former 4 bytes of nodeID aab37e73…
The folder name of node 3 is
node2, IP port 127.0.0.1:30402, the former 4 bytes of nodeID d6b01a96…
Node A to join the network¶
Node 3 is outside the network and wants to join it now.
1 . enter nodes folder and execute
gen_node_cert.sh to generate node folder. Here we name the folder as node2, which contains
# acquire script $ curl -LO https://raw.githubusercontent.com/FISCO-BCOS/FISCO-BCOS/master/tools/gen_node_cert.sh && chmod u+x gen_node_cert.sh # execute, -c is the ca route given when the node was generated, agency is the agency name, -o is the name of the node folder to be generated $ ./gen_node_cert.sh -c nodes/cert/agency -o node2
2 . copy node 2 under
nodes/127.0.0.1/, parallel with other node folder (
$ cp -r ./node2/ nodes/127.0.0.1/
3 . enter
node0/stop.sh to node2 directory;
$ cd nodes/127.0.0.1/ $ cp node0/config.ini node0/start.sh node0/stop.sh node2/
4 . modify
[rpc] model, modify
[p2p] model, modify
listen_port and add its node information in
$ vim node2/config.ini [rpc] ;rpc listen ip listen_ip=127.0.0.1 ;channelserver listen port channel_listen_port=20302 ;jsonrpc listen port jsonrpc_listen_port=8647 [p2p] ;p2p listen ip listen_ip=0.0.0.0 ;p2p listen port listen_port=30402 ;nodes to connect node.0=127.0.0.1:30400 node.1=127.0.0.1:30401 node.2=127.0.0.1:30402
5 . node 3 copies
node1/conf/group.3.genesis(which contains initial list of group nodes) and
node2/conf folder, without modification;
$ cp node1/conf/group.3.genesis node2/conf/ $ cp node1/conf/group.3.ini node2/conf/
6 . execute
node2/start.sh and start node 3;
7 . confirm that node 3 is connected with node 1, 2, then it has joined the network now.
# Open the DEBUG log to check the number and ID of nodes connected with node 2 # The following log information indicates that node 2 is connected with 2 nodes(with the former 4 bytes being b231b309 and aab37e73) $ tail -f node2/log/log* | grep P2P debug|2019-02-21 10:30:18.694258| [P2P][Service] heartBeat ignore connected,endpoint=127.0.0.1:30400,nodeID=b231b309... debug|2019-02-21 10:30:18.694277| [P2P][Service] heartBeat ignore connected,endpoint=127.0.0.1:30401,nodeID=aab37e73... info|2019-02-21 10:30:18.694294| [P2P][Service] heartBeat connected count,size=2
- - If CA whitelist is enabled, you should configure every nodeID into every nodes’ whitelist configuration and reload the configuration. Read “CA blacklist and whitelist” for more.
- The other configurations of config.ini copied from node 1 remain the same;
- Theoretically, node 1, 2 can accomplish the extension of node 3 without changing their p2p connecting nodes list;
- The group to be chosen in step 5 are recommended to be the group to be joined by node 3;
- To keep in full connection status, we recommend users to add the information of node 3 to the p2p connecting nodes list in config.ini of node 1, 2, and restart node 1, 2.
Node A to quit the network¶
Node 3 is in the network and connected with node 1, 2. Now node 3 needs to quit the network.
1 . For node 3, clear up the P2P connecting nodes list, and restart node 3;
# execute under node 2 $ ./stop.sh $ ./start.sh nohup: appending output to ‘nohup.out’
2 . For node 1, 2, remove node 3 form their P2P connecting nodes list(if has), and restart node 1, 2;
3 . Confirm that node 3 has been disconnected with node 1, 2, and it has quitted the network now.
- node 3 has to quit the group before quitting the network, which is guaranteed by users and will not be verified by the system;
- the networking process is started by nodes. If missing step 2, node 3 can still get the p2p connecting request from node 1, 2 and start connection. It can be stopped by using CA blacklist.
- If CA whitelist is enabled, you should delete the node from every nodes’ whitelist configuration and reload the configuration. Read “CA blacklist and whitelist” for more.
Node A to join a group¶
Group 3 contains node 1, 2, either generates block in turn. Now node 3 wants to join the group.
- Node 3 joins the network;
- Set node 3 as the consensus node using console addSealer according to the node ID;
- check if the node ID of node 3 is included in the consensus nodes of group 3 through console getSealerList. If is, then it has joined the group successfully.
- node ID of node 3 can be acquired through cat nodes/127.0.0.1/node2/conf/node.nodeid;
- the first start of node 3 will write the configured group node initial list to the node system list, when the blocks stop synchronizing, the node system lists of each node are the same;
- node 3 needs to have access to the network before joining the group, which will be verified by the system;
- the group fixed configuration file of node 3 should be the same with node 1, 2.
Node A to quit the group¶
Group 3 contains node 1, 2, 3, either of which generates block in turn. Now node 3 wants to quit the group.
- set node 3 as free node according to its ID using console removeNode;
- check if the node ID of node 3 is included in the consensus nodes of group 3 through console getSealerList. If not, then node 3 has quited the group.
- node 3 can quit the group as a consensus node or observer node.