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Hyperledger-fabric 手动操作第一次运行简单网络

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Hyperledger-fabric 手动操作第一次运行简单网络

尽量使用fabric-sample/first-network目录中的yaml文件进行配置,第一次自己写配置文件问题很多都不知道怎么解决

创建一个文件夹存放命令执行过程中生成的相关文件

mkdir mynetwork

# 创建存放证书的文件夹
cd mynetwork

# 使用模板生成证书
cryptogen showtemplate > crypto-config.yaml
#修改yaml文件中的内容使符合业务需求
cryptogen generate --config=crypto-config.yaml --output ./crypto-config

得到crypto-config文件夹

使用tree命令查看结构

nykuvl@ubuntu:~/go/src/github.com/hyperledger/my-network/fabricconfig$ tree -L 4 crypto-config
crypto-config
├── ordererOrganizations
│?? └── example.com
│??     ├── ca
│??     │?? ├── ca.example.com-cert.pem
│??     │?? └── fbb7775a7d8299d555d3d4d325f63d2e99f4b78914b78133dece9fad37691a9c_sk
│??     ├── msp
│??     │?? ├── admincerts
│??     │?? ├── cacerts
│??     │?? └── tlscacerts
│??     ├── orderers
│??     │?? └── orderer.example.com
│??     ├── tlsca
│??     │?? ├── 4553c56deea65409930e3eca2560547fba1685e03c568cbf5d915f6f11cec9c1_sk
│??     │?? └── tlsca.example.com-cert.pem
│??     └── users
│??         └── Admin@example.com
└── peerOrganizations
    ├── org1.example.com
    │?? ├── ca
    │?? │?? ├── 8016c152202a05f8085c9c7064c22896f15c9f7bd634892a69378e84a4e0bdac_sk
    │?? │?? └── ca.org1.example.com-cert.pem
    │?? ├── msp
    │?? │?? ├── admincerts
    │?? │?? ├── cacerts
    │?? │?? └── tlscacerts
    │?? ├── peers
    │?? │?? ├── peer0.org1.example.com
    │?? │?? └── peer1.org1.example.com
    │?? ├── tlsca
    │?? │?? ├── 5c7c18bc6a261b3b3144c9cee6f9a0f72c6c2899730e4c294609ca4d46a6f3be_sk
    │?? │?? └── tlsca.org1.example.com-cert.pem
    │?? └── users
    │??     ├── Admin@org1.example.com
    │??     ├── User1@org1.example.com
    │??     ├── User2@org1.example.com
    │??     └── User3@org1.example.com
    └── org2.example.com
        ├── ca
        │?? ├── ca.org2.example.com-cert.pem
        │?? └── d6e0837afbc8f75c96a3bb4563d327d5829f358a3edb166d7314b033db2f0b26_sk
        ├── msp
        │?? ├── admincerts
        │?? ├── cacerts
        │?? └── tlscacerts
        ├── peers
        │?? ├── peer0.org2.example.com
        │?? └── peer1.org2.example.com
        ├── tlsca
        │?? ├── 8025007e0eb0f53e12d9d47ff29143b5c1d81684e0ff5dd999d67cd615081201_sk
        │?? └── tlsca.org2.example.com-cert.pem
        └── users
            ├── Admin@org2.example.com
            ├── User1@org2.example.com
            └── User2@org2.example.com

42 directories, 12 files

将测试域名映射到本机的IP地址上

使用tree和grep命令获取example.com结尾的域名

nykuvl@ubuntu:~/go/src/github.com/hyperledger/my-network/fabricconfig$ tree -L 5 crypto-config | grep example.com
│?? └── example.com
│??     │?? ├── ca.example.com-cert.pem
│??     │?? │?? └── Admin@example.com-cert.pem
│??     │?? │?? └── ca.example.com-cert.pem
│??     │??     └── tlsca.example.com-cert.pem
│??     │?? └── orderer.example.com
│??     │?? └── tlsca.example.com-cert.pem
│??         └── Admin@example.com
    ├── org1.example.com
    │?? │?? └── ca.org1.example.com-cert.pem
    │?? │?? │?? └── Admin@org1.example.com-cert.pem
    │?? │?? │?? └── ca.org1.example.com-cert.pem
    │?? │??     └── tlsca.org1.example.com-cert.pem
    │?? │?? ├── peer0.org1.example.com
    │?? │?? └── peer1.org1.example.com
    │?? │?? └── tlsca.org1.example.com-cert.pem
    │??     ├── Admin@org1.example.com
    │??     ├── User1@org1.example.com
    │??     ├── User2@org1.example.com
    │??     └── User3@org1.example.com
    └── org2.example.com
        │?? ├── ca.org2.example.com-cert.pem
        │?? │?? └── Admin@org2.example.com-cert.pem
        │?? │?? └── ca.org2.example.com-cert.pem
        │??     └── tlsca.org2.example.com-cert.pem
        │?? ├── peer0.org2.example.com
        │?? └── peer1.org2.example.com
        │?? └── tlsca.org2.example.com-cert.pem
            ├── Admin@org2.example.com
            ├── User1@org2.example.com
            └── User2@org2.example.com

提取信息得到以下域名

orderer.example.com
peer0.org1.example.com
peer1.org1.example.com
peer0.org2.example.com
peer1.org2.example.com

设置hosts

vim /etc/hosts

# 添加以下内容,IP地址使用本地IP地址
192.168.139.134 orderer.example.com
192.168.139.134 peer0.org1.example.com
192.168.139.134 peer1.org1.example.com
192.168.139.134 peer0.org2.example.com
192.168.139.134 peer1.org2.example.com

设置完成后使用ping <域名>的方式测试配置是否正确

创建order目录存放orderer节点相关的文件

# 将fabric官方给的configtx配置样例复制到目录下
cp -r $GOPATH/src/github.com/hyperledger/fabric/sampleconfig/configtx.yaml $GOPATH/src/github.com/hyperledger/mynetwork/

sampleconfig/configtx.yaml代码及注释

# Copyright IBM Corp. All Rights Reserved.
#
# SPDX-License-Identifier: Apache-2.0
#

---
################################################################################
#
#   ORGANIZATIONS
#
#   本节定义可以在配置描述文件中引用的组织身份。
#
################################################################################
Organizations:

    # SampleOrg defines an MSP using the sampleconfig. It should never be used
    # in production but may be used as a template for other definitions.
    # 
    # SampleOrg使用sampleconfig定义了一个MSP。 永远不要在生产中使用它,
    # 而可以将其用作其他定义的模板。
    - &SampleOrg
        # Name is the key by which this org will be referenced in channel
        # configuration transactions.
        # Name can include alphanumeric characters as well as dots and dashes.
        # Name是在channel配置transactions中引用此组织的键。
        # Name可以包括字母数字字符以及点和破折号。
        Name: SampleOrg

        # ID is the key by which this org's MSP definition will be referenced.
        # ID can include alphanumeric characters as well as dots and dashes.
        # ID是引用此组织的MSP定义的键。ID可以包含字母数字字符以及点和破折号。
        ID: SampleOrg

        # MSPDir is the filesystem path which contains the MSP configuration.
        # MSPDir是包含MSP配置的文件系统路径。
        MSPDir: msp

        # Policies defines the set of policies at this level of the config tree
        # For organization policies, their canonical path is usually
        #   /Channel/<Application|Orderer>/<OrgName>/<PolicyName>
        # 策略在配置树的此级别定义策略集。对于组织策略,其规范路径通常为
        # /Channel/<Application|Orderer>/<OrgName>/<PolicyName>
        Policies: &SampleOrgPolicies
            Readers:
                Type: Signature
                Rule: "OR('SampleOrg.member')"
                # If your MSP is configured with the new NodeOUs, you might
                # want to use a more specific rule like the following:
                # Rule: "OR('SampleOrg.admin', 'SampleOrg.peer', 'SampleOrg.client')"
                # 如果您的MSP配置了新的NodeOUs,则可能要使用更具体的规则,如下所示:
                # 规则: "OR('SampleOrg.admin', 'SampleOrg.peer', 'SampleOrg.client')"
            Writers:
                Type: Signature
                Rule: "OR('SampleOrg.member')"
                # If your MSP is configured with the new NodeOUs, you might
                # want to use a more specific rule like the following:
                # Rule: "OR('SampleOrg.admin', 'SampleOrg.client')"
                # 如果您的MSP配置了新的NodeOUs,则可能要使用更具体的规则,如下所示:
                # 规则:"OR('SampleOrg.admin', 'SampleOrg.client')"
            Admins:
                Type: Signature
                Rule: "OR('SampleOrg.admin')"

        # OrdererEndpoints is a list of all orderers this org runs which clients
        # and peers may to connect to to push transactions and receive blocks respectively.
        # OrdererEndpoint是该组织运行的所有orderer的列表,
        # 客户端和对等点可以分别连接到这些orderer以推送transactions和接收区块。
        OrdererEndpoints:
            - "127.0.0.1:7050"

        # AnchorPeers defines the location of peers which can be used for
        # cross-org gossip communication. Note, this value is only encoded in
        # the genesis block in the Application section context.
        # AnchorPeers定义了可用于跨组织gossip通信的对等点的位置。 
        # 注意,此值仅在“应用程序”部分上下文中的“创世”块中编码。
        AnchorPeers:
            - Host: 127.0.0.1
              Port: 7051

################################################################################
#
#   CAPABILITIES
#
#   This section defines the capabilities of fabric network. This is a new
#   concept as of v1.1.0 and should not be utilized in mixed networks with
#   v1.0.x peers and orderers.  Capabilities define features which must be
#   present in a fabric binary for that binary to safely participate in the
#   fabric network.  For instance, if a new MSP type is added, newer binaries
#   might recognize and validate the signatures from this type, while older
#   binaries without this support would be unable to validate those
#   transactions.  This could lead to different versions of the fabric binaries
#   having different world states.  Instead, defining a capability for a channel
#   informs those binaries without this capability that they must cease
#   processing transactions until they have been upgraded.  For v1.0.x if any
#   capabilities are defined (including a map with all capabilities turned off)
#   then the v1.0.x peer will deliberately crash.
#   本节定义fabric网络的功能。 从v1.1.0开始,这是一个新概念,不应在具有v1.0.x对等点和
#   orderer的混合网络中使用。 功能定义了fabric二进制文件中必须存在的功能,该二进制文件
#   才能安全地参与fabric网络。 例如,如果添加了新的MSP类型,则较新的二进制文件可能会
#   识别并验证该类型的签名,而没有此支持的较旧的二进制文件将无法验证这些transactions。 
#   这可能会导致不同版本的fabric二进制文件有不同的世界状态。 相反,为通道定义功能会通知
#   那些没有此功能的二进制文件,它们必须停止处理transactions,直到升级为止。 
#   对于v1.0.x,如果定义了任何功能(包括关闭了所有功能的映射),则v1.0.x对等点将故意崩溃。
#
################################################################################
Capabilities:
    # Channel capabilities apply to both the orderers and the peers and must be
    # supported by both.
    # Set the value of the capability to true to require it.
    # Note that setting a later Channel version capability to true will also
    # implicitly set prior Channel version capabilities to true. There is no need
    # to set each version capability to true (prior version capabilities remain
    # in this sample only to provide the list of valid values).
    # Channel capabilities同时适用于orderer和对等节点,并且必须同时受其支持。
    # 将功能的值设置为true以使用它。
    # 请注意,将更高版本的Channel版本功能设置为true也会隐式将先前的Channel版本功能设置为true。
    # 无需将每个版本功能都设置为true(此示例中保留的先前版本功能仅是为了提供有效值的列表)。
    Channel: &ChannelCapabilities
        # V1.4.3 for Channel is a catchall flag for behavior which has been
        # determined to be desired for all orderers and peers running at the v1.4.3
        # level, but which would be incompatible with orderers and peers from
        # prior releases.
        # Prior to enabling V1.4.3 channel capabilities, ensure that all
        # orderers and peers on a channel are at v1.4.3 or later.
        # 用于Channel的V1.4.3是行为的综合标志,该行为已被确定为运行在V1.4.3级别的
        # 所有orderer和对等节点所需的,但与以前版本中的orderer和对等节点不兼容。在启用V1.4.3
        # Channel capabilities之前,请确保Channel上的所有orderer和对等节点都是V1.4.3或更高版本。
        V1_4_3: true
        # V1.3 for Channel enables the new non-backwards compatible
        # features and fixes of fabric v1.3
        V1_3: false
        # V1.1 for Channel enables the new non-backwards compatible
        # features and fixes of fabric v1.1
        V1_1: false

    # Orderer capabilities apply only to the orderers, and may be safely
    # used with prior release peers.
    # Set the value of the capability to true to require it.
    # Note that setting a later Orderer version capability to true will also
    # implicitly set prior Orderer version capabilities to true. There is no need
    # to set each version capability to true (prior version capabilities remain
    # in this sample only to provide the list of valid values).
    # Orderer capabilities仅适用于Orderer,并且可以与以前的发行版对等节点安全地使用。 
    # 将功能的值设置为true以使用它。 请注意,将更高的Orderer版本功能设置为true
    # 也将隐式将先前的Orderer版本功能设置为true。 无需将每个版本功能都设置为true
    # (此示例中保留的先前版本功能仅是为了提供有效值的列表)。
    Orderer: &OrdererCapabilities
        # V1.4.2 for Orderer is a catchall flag for behavior which has been
        # determined to be desired for all orderers running at the v1.4.2
        # level, but which would be incompatible with orderers from prior releases.
        # Prior to enabling V1.4.2 orderer capabilities, ensure that all
        # orderers on a channel are at v1.4.2 or later.
        V1_4_2: true
        # V1.1 for Orderer enables the new non-backwards compatible
        # features and fixes of fabric v1.1
        V1_1: false

    # Application capabilities apply only to the peer network, and may be safely
    # used with prior release orderers.
    # Set the value of the capability to true to require it.
    # Note that setting a later Application version capability to true will also
    # implicitly set prior Application version capabilities to true. There is no need
    # to set each version capability to true (prior version capabilities remain
    # in this sample only to provide the list of valid values).
    # Application capabilities仅适用于对等网络,并且可以与以前的发行版Orderer一起安全使用。 
    # 将功能的值设置为true以使用它。 请注意,将更高的应用程序版本功能设置为true
    # 也将隐式将先前的应用程序版本功能设置为true。 无需将每个版本功能都设置为true
    # (此示例中保留的先前版本功能仅是为了提供有效值的列表)。
    Application: &ApplicationCapabilities
        # V1.4.2 for Application enables the new non-backwards compatible
        # features and fixes of fabric v1.4.2
        V1_4_2: true
        # V1.3 for Application enables the new non-backwards compatible
        # features and fixes of fabric v1.3.
        V1_3: false
        # V1.2 for Application enables the new non-backwards compatible
        # features and fixes of fabric v1.2 (note, this need not be set if
        # later version capabilities are set)
        V1_2: false
        # V1.1 for Application enables the new non-backwards compatible
        # features and fixes of fabric v1.1 (note, this need not be set if
        # later version capabilities are set).
        V1_1: false

################################################################################
#
#   APPLICATION
#
#   This section defines the values to encode into a config transaction or
#   genesis block for application-related parameters.
#   本节定义了要编码为应用程序相关参数的配置tansaction或创世区块中的值。
#
################################################################################
Application: &ApplicationDefaults
    ACLs: &ACLsDefault
        # This section provides defaults for policies for various resources
        # in the system. These "resources" could be functions on system chaincodes
        # (e.g., "GetBlockByNumber" on the "qscc" system chaincode) or other resources
        # (e.g.,who can receive Block events). This section does NOT specify the resource's
        # definition or API, but just the ACL policy for it.
        # 本节提供系统中各种资源的策略的默认设置。 这些“资源”可以是系统chaincode上的函数
        # (例如,“ qscc”系统chaincode上的“ GetBlockByNumber”)或其他资源
        # (例如,可以接收Block事件的资源)。 本节不指定资源的定义或API,
        # 而仅指定它的ACL策略。
        #
        # User's can override these defaults with their own policy mapping by defining the
        # mapping under ACLs in their channel definition
        # 用户可以通过在其Channel定义中的ACL下定义映射来覆盖这些默认值,并使用自己的策略映射

        #---Lifecycle System Chaincode (lscc) function to policy mapping for access control---#

        # ACL policy for lscc's "getid" function
        lscc/ChaincodeExists: /Channel/Application/Readers

        # ACL policy for lscc's "getdepspec" function
        lscc/GetDeploymentSpec: /Channel/Application/Readers

        # ACL policy for lscc's "getccdata" function
        lscc/GetChaincodeData: /Channel/Application/Readers

        # ACL Policy for lscc's "getchaincodes" function
        lscc/GetInstantiatedChaincodes: /Channel/Application/Readers

        #---Query System Chaincode (qscc) function to policy mapping for access control---#

        # ACL policy for qscc's "GetChainInfo" function
        qscc/GetChainInfo: /Channel/Application/Readers

        # ACL policy for qscc's "GetBlockByNumber" function
        qscc/GetBlockByNumber: /Channel/Application/Readers

        # ACL policy for qscc's  "GetBlockByHash" function
        qscc/GetBlockByHash: /Channel/Application/Readers

        # ACL policy for qscc's "GetTransactionByID" function
        qscc/GetTransactionByID: /Channel/Application/Readers

        # ACL policy for qscc's "GetBlockByTxID" function
        qscc/GetBlockByTxID: /Channel/Application/Readers

        #---Configuration System Chaincode (cscc) function to policy mapping for access control---#

        # ACL policy for cscc's "GetConfigBlock" function
        cscc/GetConfigBlock: /Channel/Application/Readers

        # ACL policy for cscc's "GetConfigTree" function
        cscc/GetConfigTree: /Channel/Application/Readers

        # ACL policy for cscc's "SimulateConfigTreeUpdate" function
        cscc/SimulateConfigTreeUpdate: /Channel/Application/Readers

        #---Miscellanesous peer function to policy mapping for access control---#

        # ACL policy for invoking chaincodes on peer
        peer/Propose: /Channel/Application/Writers

        # ACL policy for chaincode to chaincode invocation
        peer/ChaincodeToChaincode: /Channel/Application/Readers

        #---Events resource to policy mapping for access control###---#

        # ACL policy for sending block events
        event/Block: /Channel/Application/Readers

        # ACL policy for sending filtered block events
        event/FilteredBlock: /Channel/Application/Readers

    # Organizations lists the orgs participating on the application side of the
    # network.
    # Organizations列出参与网络应用程序端的组织。
    Organizations:

    # Policies defines the set of policies at this level of the config tree
    # For Application policies, their canonical path is
    #   /Channel/Application/<PolicyName>
    # 策略在配置树的此级别定义策略集。对于应用程序策略,其规范路径为
    # /Channel/Application/<PolicyName>
    Policies: &ApplicationDefaultPolicies
        Readers:
            Type: ImplicitMeta
            Rule: "ANY Readers"
        Writers:
            Type: ImplicitMeta
            Rule: "ANY Writers"
        Admins:
            Type: ImplicitMeta
            Rule: "MAJORITY Admins"

    # Capabilities describes the application level capabilities, see the
    # dedicated Capabilities section elsewhere in this file for a full
    # description
    # Capabilities描述了应用程序级别的功能,有关完整说明,请参阅此文件其他地方的专用功能部分。
    Capabilities:
        <<: *ApplicationCapabilities

################################################################################
#
#   ORDERER
#
#   This section defines the values to encode into a config transaction or
#   genesis block for orderer related parameters.
#   本节定义了要编码为与Orderer相关的参数的配置tansaction或生成块的值。
#
################################################################################
Orderer: &OrdererDefaults

    # Orderer Type: The orderer implementation to start.
    # Available types are "solo", "kafka" and "etcdraft".
    OrdererType: solo

    # Addresses used to be the list of orderer addresses that clients and peers
    # could connect to.  However, this does not allow clients to associate orderer
    # addresses and orderer organizations which can be useful for things such
    # as TLS validation.  The preferred way to specify orderer addresses is now
    # to include the OrdererEndpoints item in your org definition
    # Addresses曾经是客户端和对等节点可以连接的Orderer地址的列表。 
    # 但是,这不允许客户端将Orderer地址和Orderer组织相关联,
    # 这对于诸如TLS验证之类的事情很有用。 
    # 现在,指定Orderer地址的首选方法是在org definition中包括OrdererEndpoints项
    Addresses:
        # - 127.0.0.1:7050

    # Batch Timeout: The amount of time to wait before creating a batch.
    # 批处理超时:创建批处理之前要等待的时间。
    BatchTimeout: 2s

    # Batch Size: Controls the number of messages batched into a block.
    # The orderer views messages opaquely, but typically, messages may
    # be considered to be Fabric transactions.  The 'batch' is the group
    # of messages in the 'data' field of the block.  Blocks will be a few kb
    # larger than the batch size, when signatures, hashes, and other metadata
    # is applied.
    # 批处理大小:控制批处理到一个区块中的消息数。 orderer不透明地查看消息,
    # 但是通常,消息可以被视为Fabric transactions。 “批”是该块的“数据”字段中的一组消息。 
    # 当应用签名,哈希和其他元数据时,区块将比批处理大小大几kb。
    BatchSize:

        # Max Message Count: The maximum number of messages to permit in a
        # batch.  No block will contain more than this number of messages.
        # 最大消息计数:在一个批处理中消息的最大数目。 没有区块会包含比这个数量更多的消息。
        MaxMessageCount: 500

        # Absolute Max Bytes: The absolute maximum number of bytes allowed for
        # the serialized messages in a batch. The maximum block size is this value
        # plus the size of the associated metadata (usually a few KB depending
        # upon the size of the signing identities). Any transaction larger than
        # this value will be rejected by ordering. If the "kafka" OrdererType is
        # selected, set 'message.max.bytes' and 'replica.fetch.max.bytes' on
        # the Kafka brokers to a value that is larger than this one.
        # 绝对最大字节数:批处理中序列化消息允许的绝对最大字节数。 
        # 最大块大小是该值加上相关元数据的大小(通常为几个KB,具体取决于签名标识的大小)。 
        # 任何大于此值的交易将被Orderer拒绝。 如果选择了“ kafka” OrdererType,
        # 则将Kafka代理上的“ message.max.bytes”和“ replica.fetch.max.bytes”设置为大于此值的值。
        AbsoluteMaxBytes: 10 MB

        # Preferred Max Bytes: The preferred maximum number of bytes allowed
        # for the serialized messages in a batch. Roughly, this field may be considered
        # the best effort maximum size of a batch. A batch will fill with messages
        # until this size is reached (or the max message count, or batch timeout is
        # exceeded).  If adding a new message to the batch would cause the batch to
        # exceed the preferred max bytes, then the current batch is closed and written
        # to a block, and a new batch containing the new message is created.  If a
        # message larger than the preferred max bytes is received, then its batch
        # will contain only that message.  Because messages may be larger than
        # preferred max bytes (up to AbsoluteMaxBytes), some batches may exceed
        # the preferred max bytes, but will always contain exactly one transaction.
        # 首选最大字节数:批处理中序列化消息允许的首选最大字节数。 
        # 粗略地讲,此字段可被视为批处理中最大努力的最大大小。 
        # 批处理将填充消息,直到达到此大小(或最大消息数或超过批处理超时)为止。 
        # 如果将新消息添加到批处理将导致该批处理超出首选的最大字节数,
        # 则将关闭当前批处理并将其写入一个块,并创建一个包含新消息的新批处理。 
        # 如果收到的消息大于首选的最大字节,则其批处理将仅包含该消息。 
        # 由于消息可能大于首选的最大字节(最大为AbsoluteMaxBytes),
        # 因此某些批次可能会超出首选的最大字节,但始终只包含一个事务。
        PreferredMaxBytes: 2 MB

    # Max Channels is the maximum number of channels to allow on the ordering
    # network. When set to 0, this implies no maximum number of channels.
    # 最大Channel数是ordering网络上允许的最大Channel数。 设置为0时,表示没有最大通道数。
    MaxChannels: 0

    Kafka:
        # Brokers: A list of Kafka brokers to which the orderer connects. Edit
        # this list to identify the brokers of the ordering service.
        # NOTE: Use IP:port notation.
        # Brokers:Orderer连接的Kafka brokers列表。 
        # 编辑此列表以标识ordering服务的brokers。 
        # 注意:使用IP:端口符号。
        Brokers:
            - kafka0:9092
            - kafka1:9092
            - kafka2:9092

    # EtcdRaft defines configuration which must be set when the "etcdraft"
    # orderertype is chosen.
    # EtcdRaft定义了选择“ etcdraft”Oderer类型时必须设置的配置。
    EtcdRaft:
        # The set of Raft replicas for this network. For the etcd/raft-based
        # implementation, we expect every replica to also be an OSN. Therefore,
        # a subset of the host:port items enumerated in this list should be
        # replicated under the Orderer.Addresses key above.
        # 此网络的Raft副本集。 对于基于etcd / raft的实现,我们希望每个副本也都是OSN。 
        # 因此,此列表中列举的host:port项的子集应复制在上方的Orderer.Addresses键下。
        Consenters:
            - Host: raft0.example.com
              Port: 7050
              ClientTLSCert: path/to/ClientTLSCert0
              ServerTLSCert: path/to/ServerTLSCert0
            - Host: raft1.example.com
              Port: 7050
              ClientTLSCert: path/to/ClientTLSCert1
              ServerTLSCert: path/to/ServerTLSCert1
            - Host: raft2.example.com
              Port: 7050
              ClientTLSCert: path/to/ClientTLSCert2
              ServerTLSCert: path/to/ServerTLSCert2

        # Options to be specified for all the etcd/raft nodes. The values here
        # are the defaults for all new channels and can be modified on a
        # per-channel basis via configuration updates.
        # 为所有etcd / raft节点指定的选项。 此处的值是所有新通道的默认值,
        # 可以通过配置更新在每个Channel的基础上进行修改。
        Options:
            # TickInterval is the time interval between two Node.Tick invocations.
            # TickInterval是两次Node.Tick调用之间的时间间隔。
            TickInterval: 500ms

            # ElectionTick is the number of Node.Tick invocations that must pass
            # between elections. That is, if a follower does not receive any
            # message from the leader of current term before ElectionTick has
            # elapsed, it will become candidate and start an election.
            # ElectionTick must be greater than HeartbeatTick.
            # ElectionTick是两次选举之间必须传递的Node.Tick调用数。 
            # 也就是说,如果在ElectionTick过去之前,follower没有收到当前任职领导者的任何消息,
            # 它将成为候选人并开始选举。 ElectionTick必须大于HeartbeatTick。
            ElectionTick: 10

            # HeartbeatTick is the number of Node.Tick invocations that must
            # pass between heartbeats. That is, a leader sends heartbeat
            # messages to maintain its leadership every HeartbeatTick ticks.
            # HeartbeatTick是必须在两次心跳之间传递的Node.Tick调用数。 
            # 也就是说,领导者发送心跳消息,以在每次HeartbeatTick滴答时保持其领导地位。
            HeartbeatTick: 1

            # MaxInflightBlocks limits the max number of in-flight append messages
            # during optimistic replication phase.
            # MaxInflightBlocks限制了乐观复制阶段的运行中附加消息的最大数量。
            MaxInflightBlocks: 5

            # SnapshotIntervalSize defines number of bytes per which a snapshot is taken
            # SnapshotIntervalSize定义用于拍摄快照的字节数
            SnapshotIntervalSize: 20 MB

    # Organizations lists the orgs participating on the orderer side of the
    # network.
    Organizations:

    # Policies defines the set of policies at this level of the config tree
    # For Orderer policies, their canonical path is
    #   /Channel/Orderer/<PolicyName>
    Policies:
        Readers:
            Type: ImplicitMeta
            Rule: "ANY Readers"
        Writers:
            Type: ImplicitMeta
            Rule: "ANY Writers"
        Admins:
            Type: ImplicitMeta
            Rule: "MAJORITY Admins"
        # BlockValidation specifies what signatures must be included in the block
        # from the orderer for the peer to validate it.
        BlockValidation:
            Type: ImplicitMeta
            Rule: "ANY Writers"

    # Capabilities describes the orderer level capabilities, see the
    # dedicated Capabilities section elsewhere in this file for a full
    # description
    Capabilities:
        <<: *OrdererCapabilities

################################################################################
#
#   CHANNEL
#
#   This section defines the values to encode into a config transaction or
#   genesis block for channel related parameters.
#   本节定义了要编码为Channel相关参数的配置transaction或创世区块的值。
#
################################################################################
Channel: &ChannelDefaults
    # Policies defines the set of policies at this level of the config tree
    # For Channel policies, their canonical path is
    #   /Channel/<PolicyName>
    Policies:
        # Who may invoke the 'Deliver' API
        Readers:
            Type: ImplicitMeta
            Rule: "ANY Readers"
        # Who may invoke the 'Broadcast' API
        Writers:
            Type: ImplicitMeta
            Rule: "ANY Writers"
        # By default, who may modify elements at this config level
        Admins:
            Type: ImplicitMeta
            Rule: "MAJORITY Admins"


    # Capabilities describes the channel level capabilities, see the
    # dedicated Capabilities section elsewhere in this file for a full
    # description
    Capabilities:
        <<: *ChannelCapabilities

################################################################################
#
#   PROFILES
#
#   Different configuration profiles may be encoded here to be specified as
#   parameters to the configtxgen tool. The profiles which specify consortiums
#   are to be used for generating the orderer genesis block. With the correct
#   consortium members defined in the orderer genesis block, channel creation
#   requests may be generated with only the org member names and a consortium
#   name.
#   此处可以对不同的配置配置文件进行编码,以指定为configtxgen工具的参数。 
#   指定联盟的配置文件将用于生成有序的创始块。 在Orderer创世块中定义了正确的联盟成员后,
#   可以仅使用组织成员名称和联盟名称来生成Channel创建请求。
#
################################################################################
Profiles:

    # SampleSingleMSPSolo defines a configuration which uses the Solo orderer,
    # and contains a single MSP definition (the MSP sampleconfig).
    # The Consortium SampleConsortium has only a single member, SampleOrg.
    # SampleSingleMSPSolo定义使用Solo排序器的配置,并且包含单个MSP定义(MSP sampleconfig)。 
    # 联盟SampleConsortium只有一个成员SampleOrg。
    SampleSingleMSPSolo:
        <<: *ChannelDefaults
        Orderer:
            <<: *OrdererDefaults
            Organizations:
                - *SampleOrg
        Consortiums:
            SampleConsortium:
                Organizations:
                    - *SampleOrg

    # SampleSingleMSPKafka defines a configuration that differs from the
    # SampleSingleMSPSolo one only in that it uses the Kafka-based orderer.
    SampleSingleMSPKafka:
        <<: *ChannelDefaults
        Orderer:
            <<: *OrdererDefaults
            OrdererType: kafka
            Organizations:
                - *SampleOrg
        Consortiums:
            SampleConsortium:
                Organizations:
                    - *SampleOrg

    # SampleInsecureSolo defines a configuration which uses the Solo orderer,
    # contains no MSP definitions, and allows all transactions and channel
    # creation requests for the consortium SampleConsortium.
    SampleInsecureSolo:
        <<: *ChannelDefaults
        Orderer:
            <<: *OrdererDefaults
        Consortiums:
            SampleConsortium:
                Organizations:

    # SampleInsecureKafka defines a configuration that differs from the
    # SampleInsecureSolo one only in that it uses the Kafka-based orderer.
    SampleInsecureKafka:
        <<: *ChannelDefaults
        Orderer:
            OrdererType: kafka
            <<: *OrdererDefaults
        Consortiums:
            SampleConsortium:
                Organizations:

    # SampleDevModeSolo defines a configuration which uses the Solo orderer,
    # contains the sample MSP as both orderer and consortium member, and
    # requires only basic membership for admin privileges. It also defines
    # an Application on the ordering system channel, which should usually
    # be avoided.
    SampleDevModeSolo:
        <<: *ChannelDefaults
        Orderer:
            <<: *OrdererDefaults
            Organizations:
                - <<: *SampleOrg
                  Policies:
                      <<: *SampleOrgPolicies
                      Admins:
                          Type: Signature
                          Rule: "OR('SampleOrg.member')"
        Application:
            <<: *ApplicationDefaults
            Organizations:
                - <<: *SampleOrg
                  Policies:
                      <<: *SampleOrgPolicies
                      Admins:
                          Type: Signature
                          Rule: "OR('SampleOrg.member')"
        Consortiums:
            SampleConsortium:
                Organizations:
                    - <<: *SampleOrg
                      Policies:
                          <<: *SampleOrgPolicies
                          Admins:
                              Type: Signature
                              Rule: "OR('SampleOrg.member')"

    # SampleDevModeKafka defines a configuration that differs from the
    # SampleDevModeSolo one only in that it uses the Kafka-based orderer.
    SampleDevModeKafka:
        <<: *ChannelDefaults
        Orderer:
            <<: *OrdererDefaults
            OrdererType: kafka
            Organizations:
                - <<: *SampleOrg
                  Policies:
                      <<: *SampleOrgPolicies
                      Admins:
                          Type: Signature
                          Rule: "OR('SampleOrg.member')"
        Application:
            <<: *ApplicationDefaults
            Organizations:
                - <<: *SampleOrg
                  Policies:
                      <<: *SampleOrgPolicies
                      Admins:
                          Type: Signature
                          Rule: "OR('SampleOrg.member')"
        Consortiums:
            SampleConsortium:
                Organizations:
                    - <<: *SampleOrg
                      Policies:
                          <<: *SampleOrgPolicies
                          Admins:
                              Type: Signature
                              Rule: "OR('SampleOrg.member')"

    # SampleSingleMSPChannel defines a channel with only the sample org as a
    # member. It is designed to be used in conjunction with SampleSingleMSPSolo
    # and SampleSingleMSPKafka orderer profiles.   Note, for channel creation
    # profiles, only the 'Application' section and consortium # name are
    # considered.
    # SampleSingleMSPChannel定义仅以sample org作为成员的Channel。 
    # 它旨在与SampleSingleMSPSolo和SampleSingleMSPKafka orderer程序配置文件一起使用。 
    # 请注意,对于Channel创建配置文件,仅考虑“Application”部分和联盟编号名称。
    SampleSingleMSPChannel:
        Consortium: SampleConsortium
        Application:
            <<: *ApplicationDefaults
            Organizations:
                - *SampleOrg

    # SampleDevModeEtcdRaft defines a configuration that differs from the
    # SampleDevModeSolo one only in that it uses the etcd/raft-based orderer.
    SampleDevModeEtcdRaft:
        <<: *ChannelDefaults
        Orderer:
            <<: *OrdererDefaults
            OrdererType: etcdraft
            Organizations:
                - <<: *SampleOrg
                  Policies:
                      <<: *SampleOrgPolicies
                      Admins:
                          Type: Signature
                          Rule: "OR('SampleOrg.member')"
        Application:
            <<: *ApplicationDefaults
            Organizations:
                - <<: *SampleOrg
                  Policies:
                      <<: *SampleOrgPolicies
                      Admins:
                          Type: Signature
                          Rule: "OR('SampleOrg.member')"
        Consortiums:
            SampleConsortium:
                Organizations:
                    - <<: *SampleOrg
                      Policies:
                          <<: *SampleOrgPolicies
                          Admins:
                              Type: Signature
                              Rule: "OR('SampleOrg.member')"

中文详解: http://blog.hub wiz.com/2019/04/24/fabric-configtx-yaml-cn/

简单配置一个configtx.yaml和创建创世区块

Organizations:
    - &OrdererOrg
        Name: OrdererOrg

        ID: OrdererMSP

        MSPDir: /home/nykuvl/go/src/github.com/hyperledger/mynetwork/crypto-config/ordererOrganizations/example.com/msp

        Policies:
            Readers:
                Type: Signature
                Rule: "OR('OrdererMSP.member')"
            Writers:
                Type: Signature
                Rule: "OR('OrdererMSP.member')"
            Admins:
                Type: Signature
                Rule: "OR('OrdererMSP.admin')"

    - &Org1
        Name: Org1MSP

        ID: Org1MSP

        MSPDir: /home/nykuvl/go/src/github.com/hyperledger/mynetwork/crypto-config/peerOrganizations/org1.example.com/msp

        Policies:
            Readers:
                Type: Signature
                Rule: "OR('Org1MSP.admin', 'Org1MSP.peer', 'Org1MSP.client')"
            Writers:
                Type: Signature
                Rule: "OR('Org1MSP.admin', 'Org1MSP.client')"
            Admins:
                Type: Signature
                Rule: "OR('Org1MSP.admin')"

        AnchorPeers:
            - Host: peer0.org1.example.com
              Port: 7051

    - &Org2
        Name: Org2MSP

        ID: Org2MSP

        MSPDir: /home/nykuvl/go/src/github.com/hyperledger/mynetwork/crypto-config/peerOrganizations/org2.example.com/msp

        Policies:
            Readers:
                Type: Signature
                Rule: "OR('Org2MSP.admin', 'Org2MSP.peer', 'Org2MSP.client')"
            Writers:
                Type: Signature
                Rule: "OR('Org2MSP.admin', 'Org2MSP.client')"
            Admins:
                Type: Signature
                Rule: "OR('Org2MSP.admin')"

        AnchorPeers:
            - Host: peer0.org2.example.com
              Port: 9051

Capabilities:
    Channel: &ChannelCapabilities
        V1_4_3: true
        V1_3: false
        V1_1: false

    Orderer: &OrdererCapabilities
        V1_4_2: true
        V1_1: false

    Application: &ApplicationCapabilities
        V1_4_2: true
        V1_3: false
        V1_2: false
        V1_1: false

Application: &ApplicationDefaults

    Organizations:

    Policies:
        Readers:
            Type: ImplicitMeta
            Rule: "ANY Readers"
        Writers:
            Type: ImplicitMeta
            Rule: "ANY Writers"
        Admins:
            Type: ImplicitMeta
            Rule: "MAJORITY Admins"

    Capabilities:
        <<: *ApplicationCapabilities

Orderer: &OrdererDefaults

    OrdererType: solo

    Addresses:
        - orderer.example.com:7050

    BatchTimeout: 2s

    BatchSize:

        MaxMessageCount: 10

        AbsoluteMaxBytes: 99 MB

        PreferredMaxBytes: 512 KB

    Kafka:
        Brokers:
            - 127.0.0.1:9092

    EtcdRaft:
        Consenters:
            - Host: orderer.example.com
              Port: 7050
              ClientTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer.example.com/tls/server.crt
              ServerTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer.example.com/tls/server.crt
            - Host: orderer2.example.com
              Port: 7050
              ClientTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer2.example.com/tls/server.crt
              ServerTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer2.example.com/tls/server.crt
            - Host: orderer3.example.com
              Port: 7050
              ClientTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer3.example.com/tls/server.crt
              ServerTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer3.example.com/tls/server.crt
            - Host: orderer4.example.com
              Port: 7050
              ClientTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer4.example.com/tls/server.crt
              ServerTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer4.example.com/tls/server.crt
            - Host: orderer5.example.com
              Port: 7050
              ClientTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer5.example.com/tls/server.crt
              ServerTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer5.example.com/tls/server.crt

    Organizations:

    Policies:
        Readers:
            Type: ImplicitMeta
            Rule: "ANY Readers"
        Writers:
            Type: ImplicitMeta
            Rule: "ANY Writers"
        Admins:
            Type: ImplicitMeta
            Rule: "MAJORITY Admins"
        BlockValidation:
            Type: ImplicitMeta
            Rule: "ANY Writers"

Channel: &ChannelDefaults
    Policies:
        Readers:
            Type: ImplicitMeta
            Rule: "ANY Readers"
        Writers:
            Type: ImplicitMeta
            Rule: "ANY Writers"
        Admins:
            Type: ImplicitMeta
            Rule: "MAJORITY Admins"

    Capabilities:
        <<: *ChannelCapabilities

Profiles:

    TwoOrgsOrdererGenesis:
        <<: *ChannelDefaults
        Orderer:
            <<: *OrdererDefaults
            Organizations:
                - *OrdererOrg
            Capabilities:
                <<: *OrdererCapabilities
        Consortiums:
            SampleConsortium:
                Organizations:
                    - *Org1
                    - *Org2
    TwoOrgsChannel:
        Consortium: SampleConsortium
        <<: *ChannelDefaults
        Application:
            <<: *ApplicationDefaults
            Organizations:
                - *Org1
                - *Org2
            Capabilities:
                <<: *ApplicationCapabilities

    SampleDevModeKafka:
        <<: *ChannelDefaults
        Capabilities:
            <<: *ChannelCapabilities
        Orderer:
            <<: *OrdererDefaults
            OrdererType: kafka
            Kafka:
                Brokers:
                - kafka.example.com:9092

            Organizations:
            - *OrdererOrg
            Capabilities:
                <<: *OrdererCapabilities
        Application:
            <<: *ApplicationDefaults
            Organizations:
            - <<: *OrdererOrg
        Consortiums:
            SampleConsortium:
                Organizations:
                - *Org1
                - *Org2

    SampleMultiNodeEtcdRaft:
        <<: *ChannelDefaults
        Capabilities:
            <<: *ChannelCapabilities
        Orderer:
            <<: *OrdererDefaults
            OrdererType: etcdraft
            EtcdRaft:
                Consenters:
                - Host: orderer.example.com
                  Port: 7050
                  ClientTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer.example.com/tls/server.crt
                  ServerTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer.example.com/tls/server.crt
                - Host: orderer2.example.com
                  Port: 7050
                  ClientTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer2.example.com/tls/server.crt
                  ServerTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer2.example.com/tls/server.crt
                - Host: orderer3.example.com
                  Port: 7050
                  ClientTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer3.example.com/tls/server.crt
                  ServerTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer3.example.com/tls/server.crt
                - Host: orderer4.example.com
                  Port: 7050
                  ClientTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer4.example.com/tls/server.crt
                  ServerTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer4.example.com/tls/server.crt
                - Host: orderer5.example.com
                  Port: 7050
                  ClientTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer5.example.com/tls/server.crt
                  ServerTLSCert: crypto-config/ordererOrganizations/example.com/orderers/orderer5.example.com/tls/server.crt
            Addresses:
                - orderer.example.com:7050
                - orderer2.example.com:7050
                - orderer3.example.com:7050
                - orderer4.example.com:7050
                - orderer5.example.com:7050

            Organizations:
            - *OrdererOrg
            Capabilities:
                <<: *OrdererCapabilities
        Application:
            <<: *ApplicationDefaults
            Organizations:
            - <<: *OrdererOrg
        Consortiums:
            SampleConsortium:
                Organizations:
                - *Org1
                - *Org2

接着进入orderer目录生成创世块文件

export FABRIC_CFG_PATH=$PWD
mkdir channel-artifacts
configtxgen -profile TwoOrgsOrdererGenesis -outputBlock ./channel-artifacts/genesis.block

创建Channel

export CHANNEL_NAME=mychannel

configtxgen -profile TwoOrgsChannel -outputCreateChannelTx ./channel-artifacts/channel.tx -channelID $CHANNEL_NAME

在Channel上定义Org1和Org2的anchor peer

configtxgen -profile TwoOrgsChannel -outputAnchorPeersUpdate ./channel-artifacts/Org1MSPanchors.tx -channelID $CHANNEL_NAME -asOrg Org1MSP

configtxgen -profile TwoOrgsChannel -outputAnchorPeersUpdate ./channel-artifacts/Org2MSPanchors.tx -channelID $CHANNEL_NAME -asOrg Org2MSP

这时候channel-artifacts目录下应该有四个文件

channel-artifacts/
├── channel.tx
├── genesis.block
├── Org1MSPanchors.tx
└── Org2MSPanchors.tx

0 directories, 4 files

如果文件目录设置与yaml脚本不匹配要手动进行修改

# 引入环境变量
export IMAGE_TAG=1.4
export COMPOSE_PROJECT_NAME=net

cp -r ../fabric-samples/first-network/base/ ./
cp ../fabric-samples/first-network/docker-compose-cli.yaml ./
# 执行docker-compose
CHANNEL_NAME=$CHANNEL_NAME TIMEOUT=600 docker-compose -f docker-compose-cli.yaml up -d

Tip: 当启动后发现docker ps只有cli一个容器开启,使用docker logs查看其他容器停止的原因

启动docker之前先把chaincode目录从fabric-sample里拿出来,之后安装链码会用到

# 先进入hyperledger的目录下,再执行以下命令
cp -r fabric-sample/chiancode ./

创建和加入通道

进入docker cli容器

docker exec -it cli bash

export CHANNEL_NAME=mychannel

# the channel.tx file is mounted in the channel-artifacts directory within your CLI container
# as a result, we pass the full path for the file
# we also pass the path for the orderer ca-cert in order to verify the TLS handshake
# be sure to replace the $CHANNEL_NAME variable appropriately

peer channel create -o orderer.example.com:7050 -c $CHANNEL_NAME -f ./channel-artifacts/channel.tx --tls $CORE_PEER_TLS_ENABLED --cafile /opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/ordererOrganizations/example.com/orderers/orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem

清空docker环境解决各种permission denied

出现问题无法创建通道,执行清空docker环境的命令,然后再从头开始

# STOP AND DELETE THE DOCKER CONTAINERS
docker ps -aq | xargs -n 1 docker stop
docker ps -aq | xargs -n 1 docker rm -v

# DELETE THE OLD DOCKER VOLUMES
docker volume prune

# DELETE OLD DOCKER NETWORKS (OPTIONAL: seems to restart fine without)
docker network prune

# DELETE SCRIPT-CREATED FILES
rm -rf channel-artifacts/*.block channel-artifacts/*.tx crypto-config
rm -f docker-compose-e2e.yaml

# VERIFY RESULTS
docker ps -a
docker volume ls
ls -l

加入通道

通过改变环境变量来操作不同节点

# peer0.org1.example.com 加入通道
export CORE_PEER_ADDRESS=peer0.org1.example.com:7051
export CORE_PEER_LOCALMSPID="Org1MSP"
export CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org1.example.com/peers/peer0.org1.example.com/tls/ca.crt
export CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org1.example.com/users/Admin@org1.example.com/msp
peer channel join -b mychannel.block

# peer1.org1.example.com 加入通道
# 注意:端口号要根据docker-compose的文件来设置,通过docker ps查看开放的端口号
export CORE_PEER_ADDRESS=peer1.org1.example.com:8051
export CORE_PEER_LOCALMSPID="Org1MSP"
export CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org1.example.com/peers/peer1.org1.example.com/tls/ca.crt
export CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org1.example.com/users/Admin@org1.example.com/msp
peer channel join -b mychannel.block

# peer0.org2.example.com 加入通道
export CORE_PEER_ADDRESS=peer0.org2.example.com:9051
export CORE_PEER_LOCALMSPID="Org2MSP"
export CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/peers/peer0.org2.example.com/tls/ca.crt
export CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/users/Admin@org2.example.com/msp
peer channel join -b mychannel.block

# peer1.org2.example.com 加入通道
export CORE_PEER_ADDRESS=peer1.org2.example.com:10051
export CORE_PEER_LOCALMSPID="Org2MSP"
export CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/peers/peer1.org2.example.com/tls/ca.crt
export CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/users/Admin@org2.example.com/msp
peer channel join -b mychannel.block

安装和实例化链码

安装链码时有教程写是使用网络资源进行安装,我自己在装的时候是不起作用的,要手动指定chaincode的目录

# peer0.org1.example.com 安装链码
export CORE_PEER_ADDRESS=peer0.org1.example.com:7051
export CORE_PEER_LOCALMSPID="Org1MSP"
export CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org1.example.com/peers/peer0.org1.example.com/tls/ca.crt
export CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org1.example.com/users/Admin@org1.example.com/msp
# chaincode的目录要规划好,根据自行设置的目录结构更改命令
peer chaincode install -n mycc -v 1.0 -p github.com/chaincode/chaincode_example02/go

# peer1.org1.example.com 安装链码
# 注意:端口号要根据docker-compose的文件来设置,通过docker ps查看开放的端口号
export CORE_PEER_ADDRESS=peer1.org1.example.com:8051
export CORE_PEER_LOCALMSPID="Org1MSP"
export CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org1.example.com/peers/peer1.org1.example.com/tls/ca.crt
export CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org1.example.com/users/Admin@org1.example.com/msp
peer chaincode install -n mycc -v 1.0 -p github.com/chaincode/chaincode_example02/go

# peer0.org2.example.com 安装链码
export CORE_PEER_ADDRESS=peer0.org2.example.com:9051
export CORE_PEER_LOCALMSPID="Org2MSP"
export CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/peers/peer0.org2.example.com/tls/ca.crt
export CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/users/Admin@org2.example.com/msp
peer chaincode install -n mycc -v 1.0 -p github.com/chaincode/chaincode_example02/go

# peer1.org2.example.com 安装链码
export CORE_PEER_ADDRESS=peer1.org2.example.com:10051
export CORE_PEER_LOCALMSPID="Org2MSP"
export CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/peers/peer1.org2.example.com/tls/ca.crt
export CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org2.example.com/users/Admin@org2.example.com/msp
peer chaincode install -n mycc -v 1.0 -p github.com/chaincode/chaincode_example02/go

实例化链码

# 先切换到peer0.org1.example.com节点
export CORE_PEER_ADDRESS=peer0.org1.example.com:7051
export CORE_PEER_LOCALMSPID="Org1MSP"
export CORE_PEER_TLS_ROOTCERT_FILE=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org1.example.com/peers/peer0.org1.example.com/tls/ca.crt
export CORE_PEER_MSPCONFIGPATH=/opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/peerOrganizations/org1.example.com/users/Admin@org1.example.com/msp

peer chaincode instantiate -o orderer.example.com:7050 --tls $CORE_PEER_TLS_ENABLED --cafile /opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/ordererOrganizations/example.com/orderers/orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem -C $CHANNEL_NAME -n mycc -v 1.0 -c '{"Args":["init","a", "100", "b","200"]}' -P "OR ('Org1MSP.member','Org2MSP.member')"

查询操作

peer chaincode query -C $CHANNEL_NAME -n mycc -c '{"Args":["query","a"]}'

调用

从a账户转10到b账户

peer chaincode invoke -o orderer.example.com:7050  --tls $CORE_PEER_TLS_ENABLED --cafile /opt/gopath/src/github.com/hyperledger/fabric/peer/crypto/ordererOrganizations/example.com/orderers/orderer.example.com/msp/tlscacerts/tlsca.example.com-cert.pem  -C $CHANNEL_NAME -n mycc -c '{"Args":["invoke","a","b","10"]}'

Hyperledger-fabric 手动操作第一次运行简单网络

标签:lag   profile   admin   win   处理   getconf   for   发送   flag   

原文地址:https://www.cnblogs.com/nykuvl/p/12358494.html

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