在使用节点的过程中txpool是不可不了解的知识点,交易从发出到被打包都经历了哪些过程?txpool在这个过程中又起到什么作用?今天这篇文章就带大家简单了解一下。
昨天的文章《以太坊如何清除已发出未打包的交易》已经聊到txpool中未被清除的交易如何清除,今天就系统的再聊一聊txpool。
txpool对应的启动参数
我们先来了解一下,针对txpool有哪些参数项可以设置,然后着重分析。
--txpool.nolocals 为本地提交交易禁用价格豁免 --txpool.journal value 本地交易的磁盘日志:用于节点重启 (默认: "transactions.rlp") --txpool.rejournal value 重新生成本地交易日志的时间间隔 (默认: 1小时) --txpool.pricelimit value 加入交易池的最小的gas价格限制(默认: 1) --txpool.pricebump value 价格波动百分比(相对之前已有交易) (默认: 10) --txpool.accountslots value 每个帐户保证可执行的最少交易槽数量 (默认: 16) --txpool.globalslots value 所有帐户可执行的最大交易槽数量 (默认: 4096) --txpool.accountqueue value 每个帐户允许的最多非可执行交易槽数量 (默认: 64) --txpool.globalqueue value 所有帐户非可执行交易最大槽数量 (默认: 1024) --txpool.lifetime value 非可执行交易最大入队时间(默认: 3小时)txpool内容的查看
> txpool.content
{ pending: {},
queued: {}
}很显然,txpool中由两部分构成pending和queued组成。那么他们两者有什么分别呢。最明显的是一个为待打包状态,一个为队列中。这里我们发起了两笔不同的交易:
> eth.sendTransaction({from:"0xdae19174969a7404e222c24b6726e4d089c12768",to:"0x5929a871f57a1C5F7E4eA304CAe92DACD1C1556b",value:web3.toWei(0.01,"ether"),gasPrice:21000000000,nonce:2});
"0x7db7883bb23a31deb9f01b5e6fb28363b1aee1b9b6797ea8b5706be170a1187c"
> eth.sendTransaction({from:"0xdae19174969a7404e222c24b6726e4d089c12768",to:"0x5929a871f57a1C5F7E4eA304CAe92DACD1C1556b",value:web3.toWei(0.01,"ether")});
"0x2784a79a8c454c72700e7be3b31c1c98ceaea232ca4992a6830b0fc999ebb653"很显然,第一笔交易指定了nonce为2,第二笔交易未指定nonce值,因为此地址没有发起过交易那么nonce值默认为0。这时我们再看一下txpool中的内容:
> txpool.content
{
pending: {
0xdAE19174969A7404e222c24B6726E4D089c12768: {
0: {
blockHash: "0x0000000000000000000000000000000000000000000000000000000000000000",
blockNumber: null,
from: "0xdae19174969a7404e222c24b6726e4d089c12768",
gas: "0x15f90",
gasPrice: "0x1",
hash: "0x2784a79a8c454c72700e7be3b31c1c98ceaea232ca4992a6830b0fc999ebb653",
input: "0x",
nonce: "0x0",
r: "0xdabcd46d8d0b61e468d9f10119d544437f89cd094c35a89e5cbed298faf52c4a",
s: "0x3670f23ecfb0a12e982a60438640fe042eefc50646a077de0244a8d67a84af9e",
to: "0x5929a871f57a1c5f7e4ea304cae92dacd1c1556b",
transactionIndex: "0x0",
v: "0xa95",
value: "0x2386f26fc10000"
}
}
},
queued: {
0xdAE19174969A7404e222c24B6726E4D089c12768: {
2: {
blockHash: "0x0000000000000000000000000000000000000000000000000000000000000000",
blockNumber: null,
from: "0xdae19174969a7404e222c24b6726e4d089c12768",
gas: "0x15f90",
gasPrice: "0x4e3b29200",
hash: "0x7db7883bb23a31deb9f01b5e6fb28363b1aee1b9b6797ea8b5706be170a1187c",
input: "0x",
nonce: "0x2",
r: "0xa8953a87c326c02da9d7a712d6c7ac0cd415cbc71ea0c24423f9e01b1fec65bd",
s: "0x3faefc3a0db585a67f02996a7167890e41ff5fd8fd4be6efff3bea7a797fad29",
to: "0x5929a871f57a1c5f7e4ea304cae92dacd1c1556b",
transactionIndex: "0x0",
v: "0xa96",
value: "0x2386f26fc10000"
}
}
}
}现在txpool中有两笔交易,其中nonce为0的在pending中,nonce为2的在queued中。为什么只有nonce不同的两笔交易,在txpool中的位置却不同呢?
txpool的处理流程
首先,如果不传入nonce值,那么geth节点会默认计算当前地址已经发起了的交易中最大的nonce值为多少,然后将其+1,然后将此交易放置在pending中,等待节点打包。
其次,如果传入的nonce值过大,在进入txpool中检查到它之前的nonce并没有使用过,那么此笔交易不会发送到pending中,而且放置在queued中。只有当前面的nonce补齐之后,才会进入到pending中。那么,我们再发一笔交易把nonce补齐看看:
> eth.sendTransaction({from:"0xdae19174969a7404e222c24b6726e4d089c12768",to:"0x5929a871f57a1C5F7E4eA304CAe92DACD1C1556b",value:web3.toWei(0.01,"ether")});
"0x7ee17d38405c01bab4eec4d9dc62a6bba98283e243a2d9132187706485878ef5"
> txpool.content
{ pending: { 0xdAE19174969A7404e222c24B6726E4D089c12768: { 0: { blockHash: "0x0000000000000000000000000000000000000000000000000000000000000000", blockNumber: null, from: "0xdae19174969a7404e222c24b6726e4d089c12768", gas: "0x15f90", gasPrice: "0x1", hash: "0x2784a79a8c454c72700e7be3b31c1c98ceaea232ca4992a6830b0fc999ebb653", input: "0x", nonce: "0x0", r: "0xdabcd46d8d0b61e468d9f10119d544437f89cd094c35a89e5cbed298faf52c4a", s: "0x3670f23ecfb0a12e982a60438640fe042eefc50646a077de0244a8d67a84af9e", to: "0x5929a871f57a1c5f7e4ea304cae92dacd1c1556b", transactionIndex: "0x0", v: "0xa95", value: "0x2386f26fc10000" },
1: { blockHash: "0x0000000000000000000000000000000000000000000000000000000000000000", blockNumber: null, from: "0xdae19174969a7404e222c24b6726e4d089c12768", gas: "0x15f90", gasPrice: "0x1", hash: "0x7ee17d38405c01bab4eec4d9dc62a6bba98283e243a2d9132187706485878ef5", input: "0x", nonce: "0x1", r: "0xe03fb4d94b0ff04107c855bfd88a84ecdefb03f4c9b0cea5341591aa69d4751e", s: "0x4d2f60f4045e5492cd4818145cec73c78b00e0cff57026c4528d91a82dee76e1", to: "0x5929a871f57a1c5f7e4ea304cae92dacd1c1556b", transactionIndex: "0x0", v: "0xa96", value: "0x2386f26fc10000" },
2: { blockHash: "0x0000000000000000000000000000000000000000000000000000000000000000", blockNumber: null, from: "0xdae19174969a7404e222c24b6726e4d089c12768", gas: "0x15f90", gasPrice: "0x4e3b29200", hash: "0x7db7883bb23a31deb9f01b5e6fb28363b1aee1b9b6797ea8b5706be170a1187c", input: "0x", nonce: "0x2", r: "0xa8953a87c326c02da9d7a712d6c7ac0cd415cbc71ea0c24423f9e01b1fec65bd", s: "0x3faefc3a0db585a67f02996a7167890e41ff5fd8fd4be6efff3bea7a797fad29", to: "0x5929a871f57a1c5f7e4ea304cae92dacd1c1556b", transactionIndex: "0x0", v: "0xa96", value: "0x2386f26fc10000" }
}
},
queued: {}
}很明显,当中间的nonce被补齐之后,原来处于queued当中的交易被放置到了pending中。
经验之谈
前文提到的如何处理过期交易中提到了补齐nonce和设置–txpool.lifetime也是基于今天这批文章讲述的基础逻辑。除此之外,我们还要了解一下–txpool.accountqueue参数,它定义了每个账户在本节点queued中存放的最多的交易个数,默认是64个交易。
另外为了避免手续费过低导致交易一直存在于txpool当中占用内存,可以通过console设置手续费的最低值:
>miner.setGasPrice(51000000000)
true或者在启动参数上添加:
--gasprice "51000000000"原文链接:http://www.choupangxia.com/topic/detail/16
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