tornado 源码之 iostream.py

tzshlyt 2019-06-30

iostream.py

A utility class to write to and read from a non-blocking socket.

IOStream 对 socket 进行包装,采用注册回调方式实现非阻塞。
通过接口注册各个事件回调

  • _read_callback
  • _write_callback
  • _close_callback
  • _connect_callback

ioloop 中 socket 事件发生后,调用 IOStream._handle_events 方法,对事件进行分发。
对应的事件处理过程中,如果满足注册的回调条件,则调用回调函数
回调函数在 IOStream._handle_events 中被调用

contents

  • iostream.py

    • contents
    • example
    • head
    • IOStream.__init__
    • IOStream.connect
    • IOStream.read_until
    • IOStream.read_bytes
    • IOStream.write
    • IOStream.close
    • IOStream._handle_events
    • IOStream._run_callback
    • IOStream._run_callback
    • IOStream._read_from_socket
    • IOStream._read_to_buffer
    • IOStream._read_from_buffer
    • IOStream._handle_connect
    • IOStream._handle_write
    • IOStream._consume
    • IOStream._add_io_state
    • IOStream._read_buffer_size
    • copyright

example

一个简单的 IOStream 客户端示例
由此可见, IOStream 是一个异步回调链

  1. 创建 socket
  2. 创建 IOStream 对象
  3. 连接到主机,传入连接成功后回调函数 send_request
  4. socket 输出数据请求页面,读取 head,传入读取 head 成功后回调函数 on_headers
  5. 继续读取 body,传入读取 body 成功后回调函数 on_body
  6. 关闭 stream,关闭 ioloop
from tornado import ioloop
from tornado import iostream
import socket


def send_request():
    stream.write("GET / HTTP/1.0\r\nHost: baidu.com\r\n\r\n")
    stream.read_until("\r\n\r\n", on_headers)


def on_headers(data):
    headers = {}
    for line in data.split("\r\n"):
        parts = line.split(":")
        if len(parts) == 2:
            headers[parts[0].strip()] = parts[1].strip()
    stream.read_bytes(int(headers["Content-Length"]), on_body)


def on_body(data):
    print data
    stream.close()
    ioloop.IOLoop.instance().stop()


s = socket.socket(socket.AF_INET, socket.SOCK_STREAM, 0)
stream = iostream.IOStream(s)
stream.connect(("baidu.com", 80), send_request)
ioloop.IOLoop.instance().start()


# html>
# <meta http-equiv="refresh" content="0;        url=http://www.baidu.com/">
# </html>

head

from __future__ import with_statement

import collections
import errno
import logging
import socket
import sys

from tornado import ioloop
from tornado import stack_context

try:
    import ssl # Python 2.6+
except ImportError:
    ssl = None

IOStream.__init__

包装 socket 类
关键语句 self.io_loop.add_handler( self.socket.fileno(), self._handle_events, self._state) 将自身的_handle_events 加入到全局 ioloop poll 事件回调
此时只注册了 ERROR 类型事件

_read_buffer: 读缓冲

class IOStream(object):

    def __init__(self, socket, io_loop=None, max_buffer_size=104857600,
                 read_chunk_size=4096):
        self.socket = socket
        self.socket.setblocking(False)
        self.io_loop = io_loop or ioloop.IOLoop.instance()
        self.max_buffer_size = max_buffer_size
        self.read_chunk_size = read_chunk_size
        self._read_buffer = collections.deque()
        self._write_buffer = collections.deque()
        self._write_buffer_frozen = False
        self._read_delimiter = None
        self._read_bytes = None
        self._read_callback = None
        self._write_callback = None
        self._close_callback = None
        self._connect_callback = None
        self._connecting = False
        self._state = self.io_loop.ERROR
        with stack_context.NullContext():
            self.io_loop.add_handler(
                self.socket.fileno(), self._handle_events, self._state)

IOStream.connect

连接 socket 到远程地址,非阻塞模式

  1. 连接 socket
  2. 注册连接完成回调
  3. poll 增加 socket 写事件
def connect(self, address, callback=None):
        """Connects the socket to a remote address without blocking.

        May only be called if the socket passed to the constructor was
        not previously connected.  The address parameter is in the
        same format as for socket.connect, i.e. a (host, port) tuple.
        If callback is specified, it will be called when the
        connection is completed.

        Note that it is safe to call IOStream.write while the
        connection is pending, in which case the data will be written
        as soon as the connection is ready.  Calling IOStream read
        methods before the socket is connected works on some platforms
        but is non-portable.
        """
        self._connecting = True
        try:
            self.socket.connect(address)
        except socket.error, e:
            # In non-blocking mode connect() always raises an exception
            if e.args[0] not in (errno.EINPROGRESS, errno.EWOULDBLOCK):
                raise
        self._connect_callback = stack_context.wrap(callback)
        self._add_io_state(self.io_loop.WRITE)

IOStream.read_until

  1. 注册读完成回调
  2. 尝试从缓冲中读
  3. 从 socket 中读到缓冲区
  4. 重复 2,3,没有数据则退出
  5. 将 socket 读事件加入 poll

如果缓存中数据满足条件,则直接执行 callback 并返回,
否则,保存 callback 函数下次 read 事件发生时,_handle_events 处理读事件时,再进行检测及调用

def read_until(self, delimiter, callback):
        """Call callback when we read the given delimiter."""
        assert not self._read_callback, "Already reading"
        self._read_delimiter = delimiter
        self._read_callback = stack_context.wrap(callback)
        while True:
            # See if we've already got the data from a previous read
            if self._read_from_buffer():
                return
            self._check_closed()
            if self._read_to_buffer() == 0:
                break
        self._add_io_state(self.io_loop.READ)

IOStream.read_bytes

参考 read_until,读限定字节

def read_bytes(self, num_bytes, callback):
        """Call callback when we read the given number of bytes."""
        assert not self._read_callback, "Already reading"
        if num_bytes == 0:
            callback("")
            return
        self._read_bytes = num_bytes
        self._read_callback = stack_context.wrap(callback)
        while True:
            if self._read_from_buffer():
                return
            self._check_closed()
            if self._read_to_buffer() == 0:
                break
        self._add_io_state(self.io_loop.READ)

IOStream.write

def write(self, data, callback=None):
        """Write the given data to this stream.

        If callback is given, we call it when all of the buffered write
        data has been successfully written to the stream. If there was
        previously buffered write data and an old write callback, that
        callback is simply overwritten with this new callback.
        """
        self._check_closed()
        self._write_buffer.append(data)
        self._add_io_state(self.io_loop.WRITE)
        self._write_callback = stack_context.wrap(callback)

    def set_close_callback(self, callback):
        """Call the given callback when the stream is closed."""
        self._close_callback = stack_context.wrap(callback)

IOStream.close

  1. 从 ioloop 移除 socket 事件
  2. 关闭 socket
  3. 调用关闭回调
def close(self):
        """Close this stream."""
        if self.socket is not None:
            self.io_loop.remove_handler(self.socket.fileno())
            self.socket.close()
            self.socket = None
            if self._close_callback:
                self._run_callback(self._close_callback)

    def reading(self):
        """Returns true if we are currently reading from the stream."""
        return self._read_callback is not None

    def writing(self):
        """Returns true if we are currently writing to the stream."""
        return bool(self._write_buffer)

    def closed(self):
        return self.socket is None

IOStream._handle_events

核心回调
任何类型的 socket 事件触发 ioloop 回调_handle_events,然后在_handle_events 再进行分发
值得注意的是,IOStream 不处理连接请求的 read 事件
注意
作为服务端,默认代理的是已经建立连接的 socket

# HTTPServer.\_handle_events
# connection 为已经accept的连接
stream = iostream.IOStream(connection, io_loop=self.io_loop)

作为客户端,需要手动调用 IOStream.connect,连接成功后,成功回调在 write 事件中处理

这个实现比较别扭

def _handle_events(self, fd, events):
        if not self.socket:
            logging.warning("Got events for closed stream %d", fd)
            return
        try:
            # 处理读事件,调用已注册回调
            if events & self.io_loop.READ:
                self._handle_read()
            if not self.socket:
                return
            # 处理写事件,如果是刚建立连接,调用连接建立回调
            if events & self.io_loop.WRITE:
                if self._connecting:
                    self._handle_connect()
                self._handle_write()
            if not self.socket:
                return
            # 错误事件,关闭 socket
            if events & self.io_loop.ERROR:
                self.close()
                return
            state = self.io_loop.ERROR
            if self.reading():
                state |= self.io_loop.READ
            if self.writing():
                state |= self.io_loop.WRITE
            if state != self._state:
                self._state = state
                self.io_loop.update_handler(self.socket.fileno(), self._state)
        except:
            logging.error("Uncaught exception, closing connection.",
                          exc_info=True)
            self.close()
            raise

IOStream._run_callback

执行回调

def _run_callback(self, callback, *args, **kwargs):
        try:
            # Use a NullContext to ensure that all StackContexts are run
            # inside our blanket exception handler rather than outside.
            with stack_context.NullContext():
                callback(*args, **kwargs)
        except:
            logging.error("Uncaught exception, closing connection.",
                          exc_info=True)
            # Close the socket on an uncaught exception from a user callback
            # (It would eventually get closed when the socket object is
            # gc'd, but we don't want to rely on gc happening before we
            # run out of file descriptors)
            self.close()
            # Re-raise the exception so that IOLoop.handle_callback_exception
            # can see it and log the error
            raise

IOStream._run_callback

读回调

  1. 从 socket 读取数据到缓存
  2. 无数据,socket 关闭
  3. 检测是否满足 read_until read_bytes
  4. 满足则执行对应回调
def _handle_read(self):
        while True:
            try:
                # Read from the socket until we get EWOULDBLOCK or equivalent.
                # SSL sockets do some internal buffering, and if the data is
                # sitting in the SSL object's buffer select() and friends
                # can't see it; the only way to find out if it's there is to
                # try to read it.
                result = self._read_to_buffer()
            except Exception:
                self.close()
                return
            if result == 0:
                break
            else:
                if self._read_from_buffer():
                    return

IOStream._read_from_socket

从 socket 读取数据

def _read_from_socket(self):
        """Attempts to read from the socket.

        Returns the data read or None if there is nothing to read.
        May be overridden in subclasses.
        """
        try:
            chunk = self.socket.recv(self.read_chunk_size)
        except socket.error, e:
            if e.args[0] in (errno.EWOULDBLOCK, errno.EAGAIN):
                return None
            else:
                raise
        if not chunk:
            self.close()
            return None
        return chunk

IOStream._read_to_buffer

从 socket 读取数据存入缓存

def _read_to_buffer(self):
        """Reads from the socket and appends the result to the read buffer.

        Returns the number of bytes read.  Returns 0 if there is nothing
        to read (i.e. the read returns EWOULDBLOCK or equivalent).  On
        error closes the socket and raises an exception.
        """
        try:
            chunk = self._read_from_socket()
        except socket.error, e:
            # ssl.SSLError is a subclass of socket.error
            logging.warning("Read error on %d: %s",
                            self.socket.fileno(), e)
            self.close()
            raise
        if chunk is None:
            return 0
        self._read_buffer.append(chunk)
        if self._read_buffer_size() >= self.max_buffer_size:
            logging.error("Reached maximum read buffer size")
            self.close()
            raise IOError("Reached maximum read buffer size")
        return len(chunk)

IOStream._read_from_buffer

从缓冲中过滤数据
检测是否满足结束条件(read_until/read_bytes),满足则调用之前注册的回调
采用的是查询方式

def _read_from_buffer(self):
        """Attempts to complete the currently-pending read from the buffer.

        Returns True if the read was completed.
        """
        if self._read_bytes:
            if self._read_buffer_size() >= self._read_bytes:
                num_bytes = self._read_bytes
                callback = self._read_callback
                self._read_callback = None
                self._read_bytes = None
                self._run_callback(callback, self._consume(num_bytes))
                return True
        elif self._read_delimiter:
            _merge_prefix(self._read_buffer, sys.maxint)
            loc = self._read_buffer[0].find(self._read_delimiter)
            if loc != -1:
                callback = self._read_callback
                delimiter_len = len(self._read_delimiter)
                self._read_callback = None
                self._read_delimiter = None
                self._run_callback(callback,
                                   self._consume(loc + delimiter_len))
                return True
        return False

IOStream._handle_connect

调用连接建立回调,并清除连接中标志

def _handle_connect(self):
        if self._connect_callback is not None:
            callback = self._connect_callback
            self._connect_callback = None
            self._run_callback(callback)
        self._connecting = False

IOStream._handle_write

写事件

  1. 从缓冲区获取限定范围内数据
  2. 调用 socket.send 输出数据
  3. 如果数据发送我且已注册回调,调用发送完成回调
def _handle_write(self):
        while self._write_buffer:
            try:
                if not self._write_buffer_frozen:
                    # On windows, socket.send blows up if given a
                    # write buffer that's too large, instead of just
                    # returning the number of bytes it was able to
                    # process.  Therefore we must not call socket.send
                    # with more than 128KB at a time.
                    _merge_prefix(self._write_buffer, 128 * 1024)
                num_bytes = self.socket.send(self._write_buffer[0])
                self._write_buffer_frozen = False
                _merge_prefix(self._write_buffer, num_bytes)
                self._write_buffer.popleft()
            except socket.error, e:
                if e.args[0] in (errno.EWOULDBLOCK, errno.EAGAIN):
                    # With OpenSSL, after send returns EWOULDBLOCK,
                    # the very same string object must be used on the
                    # next call to send.  Therefore we suppress
                    # merging the write buffer after an EWOULDBLOCK.
                    # A cleaner solution would be to set
                    # SSL_MODE_ACCEPT_MOVING_WRITE_BUFFER, but this is
                    # not yet accessible from python
                    # (http://bugs.python.org/issue8240)
                    self._write_buffer_frozen = True
                    break
                else:
                    logging.warning("Write error on %d: %s",
                                    self.socket.fileno(), e)
                    self.close()
                    return
        if not self._write_buffer and self._write_callback:
            callback = self._write_callback
            self._write_callback = None
            self._run_callback(callback)

IOStream._consume

从读缓存消费 loc 长度的数据

def _consume(self, loc):
        _merge_prefix(self._read_buffer, loc)
        return self._read_buffer.popleft()

    def _check_closed(self):
        if not self.socket:
            raise IOError("Stream is closed")

IOStream._add_io_state

增加 socket 事件状态

def _add_io_state(self, state):
        if self.socket is None:
            # connection has been closed, so there can be no future events
            return
        if not self._state & state:
            self._state = self._state | state
            self.io_loop.update_handler(self.socket.fileno(), self._state)

IOStream._read_buffer_size

获取读缓存中已有数据长度

def _read_buffer_size(self):
        return sum(len(chunk) for chunk in self._read_buffer)


class SSLIOStream(IOStream):
    """A utility class to write to and read from a non-blocking socket.

    If the socket passed to the constructor is already connected,
    it should be wrapped with
        ssl.wrap_socket(sock, do_handshake_on_connect=False, **kwargs)
    before constructing the SSLIOStream.  Unconnected sockets will be
    wrapped when IOStream.connect is finished.
    """
    def __init__(self, *args, **kwargs):
        """Creates an SSLIOStream.

        If a dictionary is provided as keyword argument ssl_options,
        it will be used as additional keyword arguments to ssl.wrap_socket.
        """
        self._ssl_options = kwargs.pop('ssl_options', {})
        super(SSLIOStream, self).__init__(*args, **kwargs)
        self._ssl_accepting = True
        self._handshake_reading = False
        self._handshake_writing = False

    def reading(self):
        return self._handshake_reading or super(SSLIOStream, self).reading()

    def writing(self):
        return self._handshake_writing or super(SSLIOStream, self).writing()

    def _do_ssl_handshake(self):
        # Based on code from test_ssl.py in the python stdlib
        try:
            self._handshake_reading = False
            self._handshake_writing = False
            self.socket.do_handshake()
        except ssl.SSLError, err:
            if err.args[0] == ssl.SSL_ERROR_WANT_READ:
                self._handshake_reading = True
                return
            elif err.args[0] == ssl.SSL_ERROR_WANT_WRITE:
                self._handshake_writing = True
                return
            elif err.args[0] in (ssl.SSL_ERROR_EOF,
                                 ssl.SSL_ERROR_ZERO_RETURN):
                return self.close()
            elif err.args[0] == ssl.SSL_ERROR_SSL:
                logging.warning("SSL Error on %d: %s", self.socket.fileno(), err)
                return self.close()
            raise
        except socket.error, err:
            if err.args[0] == errno.ECONNABORTED:
                return self.close()
        else:
            self._ssl_accepting = False
            super(SSLIOStream, self)._handle_connect()

    def _handle_read(self):
        if self._ssl_accepting:
            self._do_ssl_handshake()
            return
        super(SSLIOStream, self)._handle_read()

    def _handle_write(self):
        if self._ssl_accepting:
            self._do_ssl_handshake()
            return
        super(SSLIOStream, self)._handle_write()

    def _handle_connect(self):
        self.socket = ssl.wrap_socket(self.socket,
                                      do_handshake_on_connect=False,
                                      **self._ssl_options)
        # Don't call the superclass's _handle_connect (which is responsible
        # for telling the application that the connection is complete)
        # until we've completed the SSL handshake (so certificates are
        # available, etc).


    def _read_from_socket(self):
        try:
            # SSLSocket objects have both a read() and recv() method,
            # while regular sockets only have recv().
            # The recv() method blocks (at least in python 2.6) if it is
            # called when there is nothing to read, so we have to use
            # read() instead.
            chunk = self.socket.read(self.read_chunk_size)
        except ssl.SSLError, e:
            # SSLError is a subclass of socket.error, so this except
            # block must come first.
            if e.args[0] == ssl.SSL_ERROR_WANT_READ:
                return None
            else:
                raise
        except socket.error, e:
            if e.args[0] in (errno.EWOULDBLOCK, errno.EAGAIN):
                return None
            else:
                raise
        if not chunk:
            self.close()
            return None
        return chunk

def _merge_prefix(deque, size):
    """Replace the first entries in a deque of strings with a single
    string of up to size bytes.

    >>> d = collections.deque(['abc', 'de', 'fghi', 'j'])
    >>> _merge_prefix(d, 5); print d
    deque(['abcde', 'fghi', 'j'])

    Strings will be split as necessary to reach the desired size.
    >>> _merge_prefix(d, 7); print d
    deque(['abcdefg', 'hi', 'j'])

    >>> _merge_prefix(d, 3); print d
    deque(['abc', 'defg', 'hi', 'j'])

    >>> _merge_prefix(d, 100); print d
    deque(['abcdefghij'])
    """
    prefix = []
    remaining = size
    while deque and remaining > 0:
        chunk = deque.popleft()
        if len(chunk) > remaining:
            deque.appendleft(chunk[remaining:])
            chunk = chunk[:remaining]
        prefix.append(chunk)
        remaining -= len(chunk)
    deque.appendleft(''.join(prefix))

def doctests():
    import doctest
    return doctest.DocTestSuite()

copyright

author:bigfish
copyright: 许可协议 知识共享署名-非商业性使用 4.0 国际许可协议

tzshlyt

tzshlyt

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牧码人 / 0评论 2020-01-25

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, # 健康监测一般公司都要加的哦,写法也是固定的。# 也就是需要保证在fork子进程之前IOLoop是未被初始化的。# 在启动IOLoop之前通过start函数设置进程数量,如果设置为0表示每个CPU都启动一个进程。

KarlDoenitz / 0评论 2019-12-28

SpringCloud 融入 Python - Tornado

大致说下上述代码,向端口为31091的注册中心注册服务名为python-tornado的服务,端口为3333,提供两个请求方式为GET和POST,接口路径为/test和/main的外部调用接口

hjhmpl / 0评论 2019-12-25

web框架--tornado自定义分页

temp = {‘username‘: str + "lys", ‘email‘: str + "@163.com"}. def __init__: #当前页 内容总数 目录。temp = ‘<a class

hjhmpl / 0评论 2019-12-17

python3 tornado api + angular8 + nginx 跨域问题

上一个博客部署好了api之后,前端开始吊发现了跨域的问题。目前测试用的Google 和 Firefox两个。需要注意的事我的Google浏览器已经配置过跨域,就是说服务器的代码无论可不可以跨域我的浏览器都可以访问api。此时还没在后台或者nginx配置跨域

selectY / 0评论 2019-12-11

web框架--tornado框架之模板引擎继承

-- 自定义的内容,命名并占位-->. -- 自定义的js文件位置,命名并点位-->. --对应的自定义css具体内容-->

KarlDoenitz / 0评论 2019-12-06

web框架--tornado框架之模板引擎

‘static_url_prefix‘: ‘static/‘, #静态文件前缀,减少每个文件引入都要加前缀的麻烦。模板引擎中的{{key}}表示取key对应的值, 当key为函数时候执行该函数并取该函数结果. 例如index.html文件中的<h1

selectY / 0评论 2019-12-05

web框架--tornado框架之初识

  对于Web框架来说,一般分为两类,其中一类则是包含上述 4部分 内容的框架,另外一类就是只包含 第3部分 功能的框架。tornado就是一中属于前者的框架。tornado 是一个基于 Python 开发的web框架,较其他 Web 框架的区别是:采用了

Cagey / 0评论 2019-12-05

Python3中tornado高并发框架

封装了:1.asyncio 协程,异步处理2. epoll模型:水平触发, 边缘触发3.poll 模型:I/O多路复用技术4.BSD的kqueue

hjhmpl / 0评论 2019-11-03

snaic和tornado的简单性能测试

CPU : Intel Core i5-2320 CPU @ 3.00GHz 4核。之前一直使用tornado作为http相关python程序的框架,最近查资料发现新出的snaic性能很高,这里在同样硬件条件下使用ab进行简单的压测。Percentage

牧码人 / 0评论 2019-11-03

Tornado实现多进程/多线程的HTTP服务

返回内容用self.write方法输出。构造函数的参数是一个Handlers列表,通过正则表达式,将请求与Handler对应起来。通过dict将Handler需要的其他对象以参数的方式传递给Handler的initialize方法。因此,我们考虑用线程池的

chenzhanhai / 0评论 2019-04-09

浅析七款“Python开源框架”的优缺点

Django 应该是最出名的Python框架,GAE甚至Erlang都有框架受它影响。Django是走大而全的方向,它最出名的是其全自动化的管理后台:只需要使用起ORM,做简单的对象定义,它就能自动生成数据库结构、以及全功能的管理后台。Django自带的O

chenzhanhai / 0评论 2019-09-09

python tornado框架学习

#get_argument 取函数方法 res = self.get_argument. #write 写到web页面上 self.write(res + 'world!

牧码人 / 0评论 2016-09-08

python 非阻塞异步处理web 框架 tornado

python setup.py install 需要pipy连接外网资源,没有外网的虚机是不能安装成功的

dldx0 / 0评论 2016-09-05

tornado的websocket

console.log(event);console.log('open');};console.log('Closed!');#!/usr/bin/python. 'type': 'sys','message': 'Welcome to WebSocke

dldx0 / 0评论 2014-12-10

tornado做树莓派车的遥控器

最近在做ios的一个东西,后端用的websocket. 今天把树莓派的小车又翻出来了。使用tornode做了个遥控器,python的websocket和python的gpio,天生的好基友啊。2016年2月15日变为

wangdamingll / 0评论 2014-12-03

tornado中的异步调用

tornado是单线程的,所以阻塞对它性能的影响非常大,不能使用阻塞的函数调用。阻塞的调用主要是一些I/O的调用,读取文件和查数据库。对于Mongo,有非阻塞的库可以直接使用,而对于Mysql那?联想到tornado的异步客户端,我觉得可以将数据库查询加一

牧码人 / 0评论 2014-04-30

tornado: httpclient &amp; simple_httpclient

HTTPClient是httpclient.py中看到的第一个类。内容非常简单,但是却又没有看上去那么简单:。fetch方法的实现会根据构造HTTPClient时传入的参数发生变化。也就是说,HTTPClient并不是一个interface,而是一个del

dldx0 / 0评论 2013-02-19

[zz] 轻量级web server Tornado代码分析

最近不是在学习tornado嘛,随手bing了一把,找到一篇很好的文章,放到这里留做记录。全文转载自“上善若水”的博客。最近在做项目,使用了Tornado这个用python写的由Facebook开源出来的web服务器框架。Tornado使用了epoll方式

hjhmpl / 0评论 2013-02-16

tornado: TCPServer &amp; HttpServer

HttpServer的父类是TCPServer,而且从实现来看,默认只是简单的重载了handle_stream这个方法,而已。HttpServer的构造函数里面,最重要的是request_callback,也就是说,当一个request进来的时候,怎么处理

chenzhanhai / 0评论 2013-02-16

tornado: template 之 各种node/block

template中的_parse方法是模板文法的解析器,而这个文件中一坨一坨的各种node以及block,就是解析结果的承载者,也就是说在经过parse处理过后,我们输入的tornado的html模板就变成了各种block的集合。这些block和node的

selectY / 0评论 2013-02-08

tornado: web.py 之 RequestHandler

RequestHandler这个类有超过1000行,看似十一个庞然大物,其实大多是注释和空方法,总体读起来非常容易。这个类也是blog项目中所有handler的父类,想必大多数tornado项目也是如此,当然顾名思义这个类以及它的派生类用来处理tornad

牧码人 / 0评论 2013-01-25

用tornado实现图片标记

背景介绍在文章Keras入门(四)之利用CNN模型轻松破解网站验证码中,其中的验证码图片标记是采用tornado实现的网页实现的。本文将会讲述如何利用tornado来实现图片标记。我们实现用tornado来实现一个网站,能够很好地帮助我们完成图片标记,也就

hjhmpl / 0评论 2019-07-01

django开发-django和tornado的不同

python中常用的几个web框架有django, tornado, flask等,今天来总结一下django和tornado的不同。工作中django和tornado都用过,使用django相对更多一些。个人感觉django虽然好用,有搭建项目快、自带O

chengqiang00 / 0评论 2019-07-01

利用tornado实现表格文件预览

项目介绍本文将介绍笔者的一个项目,主要是利用tornado实现表格文件的预览,能够浏览的表格文件支持CSV以及Excel文件。下面我们将看到这个功能是如何通过tornado来实现的。fileNames += '<span class="am

YorkCai / 0评论 2019-07-01

自制简单的诗歌搜索系统

项目简介本文将介绍一个笔者自己的项目:自制简单的诗歌搜索系统。该项目使用的Python模块为:。tornado模块用于网页端展示。实现该爬虫的代码文件为poem_scrape.py,代码如下:

牧码人 / 0评论 2019-06-30

Flask在Windows环境下的部署

背景由于目前在用的Flask项目涉及到一部分依赖Windows的处理,还无法迁移到linux平台,那么在windows环境下,要怎么部署呢?可已参考Nginx与tornado框架的并发评测。但是在实际使用中发现,Tornado 的稳定性虽然很高,但是在To

Jeffreychu / 0评论 2019-06-30

Tornado 是什么

Tornado是FriendFeed使用的可扩展的非阻塞式web服务器及其相关工具的开源版本。这个Web框架看起来有些像web.py或者Google的webapp,不过为了能有效利用非阻塞式服务器环境,这个Web框架还包含了一些相关的有用工具和优化。得利于

牧码人 / 0评论 2016-09-25

tornado 源码之 coroutine 分析

tornado 源码之 coroutine 分析tornado 的协程原理分析 版本:4.3.0为支持异步,tornado 实现了一个协程库。本文将实现一个类似 tornado 实现的基础协程框架,并阐述相应的原理。外部库使用 time 来实现定时器回调

thisisid / 0评论 2019-06-30

centos7/nginx/tornado错误异常收集

问题1:“connect() to 127.0.0.1:8080 failed while connecting to upstream”。设置SELINUX=disabled ,重启服务器。

wyx / 0评论 2015-04-02

如何在web实现连接linux终端

由上图,当python2的版本是2.7.9+或是python3的版本是3.4+时会自带pip,那我的python版本是2.7.5就需要另外安装pip。由上图,官网的最新版本是18.1。启动gateone:第一次启动前,在/opt/gateone目录下不存在

dantesite / 0评论 2019-06-30

Tornado做鉴权服务性能实践

return tokenmongodb版本是3.6,数据库操作使用了pymongo;使用了自定义的对象仓储,对比直接操作数据格式本身,这一点肯定是拖性能后退的鉴权句柄的实现:

YorkCai / 0评论 2019-06-29

Tornado vs Django选型分析

前言项目中开发的几个服务一直使用tornado作为http服务器,本人也曾提出过疑问,为什么是tornado,得到的答案是比较tornado,flask,django,tornado的并发性能最好,而且最为轻量级。今天好不容易有点空余时间,突然强迫症发作,

selectY / 0评论 2019-06-29

基于tornado的Rest-WebService框架

转载时请务必以超链接形式标明原始出处、以及本声明。之前发布了一个基于torndb的简单ORM实现。今天整理了下, 在github上开源了一个Restful-WebService的框架,包含了常用的配置文件、日志、命令行解析、以及异常退出处理等功能。用到了w

Yasin的个人 / 0评论 2014-03-07

怎样从公网访问内网Tornado

公网访问内网Tornado本地安装了Tornado,只能在局域网内访问,怎样从公网也能访问本地Tornado?本文将介绍具体的实现步骤。Holer支持各种OS系统平台,请选择跟本地OS类型匹配的holer软件包。更多的holer使用示例,请参考holer官

YorkCai / 0评论 2019-06-29

Python:Tornado 第四章:Tornado网站部署:第三节:运营期配置

上一篇文章:Python:Tornado 第四章:Tornado网站部署:第二节:静态文件1、后台运行一般调试过程中我们使用python app.py运行网站,方便我们在命令行中看运行状况。但在生产环境下我们需要后台运行网站。nohup python ap

行风 / 0评论 2019-06-28

Python:Tornado 第四章:Tornado网站部署:第二节:静态文件

Tornado提供了两种方式进行配置静态文件URL路径与服务器本地路径的关联关系。)即指定静态目录为本程序文件所在目录的static子目录。v=5ad4e的形式,其中的v=5ad4e是logo.png文件内容的哈希值,当Torn

abn0 / 0评论 2019-06-28

Python:Tornado 第四章:Tornado网站部署:第一节:调试模式

上一篇文章:Python:Tornado 第三章:HTML5 WebSocket概念及应用:第三节:客户端编程下一篇文章:Python:Tornado 第四章:Tornado网站部署:第二节:静态文件之前着重讲解Tornado的编程知识点,所有之前的例子都

pythonxuexi / 0评论 2019-06-28

Python:Tornado 第三章:HTML5 WebSocket概念及应用:第三节:客户端编程

上一篇文章:Python:Tornado 第三章:HTML5 WebSocket概念及应用:第二节:服务端编程下一篇文章:Python:Tornado 第四章:Tornado网站部署:第一节:调试模式由于WebSocket是HTML5的标准之一,所以主流浏

abn0 / 0评论 2019-06-28

Python:Tornado 第三章:HTML5 WebSocket概念及应用:第二节:服务端编程

WebSocketHandler.on_message函数:建立WebSocket链接后,当收到来自客户端的消息时,Tornado框架会调用本函数。通常,这是服务器端WebSocket编程的核心函数,通过解析收到的消息做出相应的处理。在本函数中,可以通过访

JasonYeung / 0评论 2019-06-28

Python:Tornado 第三章:HTML5 WebSocket概念及应用:第一节:WebSocket概念

上一篇文章:Python:Tornado 第二章:实战演练:开发Tornado网站:第九节:防止跨站攻击下一篇文章:Python:Tornado 第三章:HTML5 WebSocket概念及应用:第二节:服务端编程Tornado的异步特性使得其非常适合服务

行风 / 0评论 2019-06-28