匿名管道
管道是一个单向通道,有点类似共享内存缓存.管道有两端,包括输入端和输出端.对于一个进程的而言,它只能看到管道一端,即要么是输入端要么是输出端.
os.pipe()返回2个文件描述符(r, w),表示可读的和可写的.示例代码如下:
代码如下:
#!/usr/bin/python
import time
import os
def child(wpipe):
print(‘hello from child’, os.getpid())
while true:
msg = ‘how are you\n’.encode()
os.write(wpipe, msg)
time.sleep(1)
def parent():
rpipe, wpipe = os.pipe()
pid = os.fork()
if pid == 0:
child(wpipe)
assert false, ‘fork child process error!’
else:
os.close(wpipe)
print(‘hello from parent’, os.getpid(), pid)
fobj = os.fdopen(rpipe, ‘r’)
while true:
recv = os.read(rpipe, 32)
print recv
parent()
输出如下:
代码如下:
(‘hello from parent’, 5053, 5054)
(‘hello from child’, 5054)
how are you
how are you
how are you
how are you
我们也可以改进代码,不用os.read()从管道中读取二进制字节,而是从文件对象中读取字符串.这时需要用到os.fdopen()把底层的文件描述符(管道)包装成文件对象,然后再用文件对象中的readline()方法读取.这里请注意文件对象的readline()方法总是读取有换行符’\n’的一行,而且连换行符也读取出来.还有一点要改进的地方是,把父进程和子进程的管道中不用的一端关闭掉.
代码如下:
#!/usr/bin/python
import time
import os
def child(wpipe):
print(‘hello from child’, os.getpid())
while true:
msg = ‘how are you\n’.encode()
os.write(wpipe, msg)
time.sleep(1)
def parent():
rpipe, wpipe = os.pipe()
pid = os.fork()
if pid == 0:
os.close(rpipe)
child(wpipe)
assert false, ‘fork child process error!’
else:
os.close(wpipe)
print(‘hello from parent’, os.getpid(), pid)
fobj = os.fdopen(rpipe, ‘r’)
while true:
recv = fobj.readline()[:-1]
print recv
parent()
输出如下:
代码如下:
(‘hello from parent’, 5108, 5109)
(‘hello from child’, 5109)
how are you
how are you
how are you
如果要与子进程进行双向通信,只有一个pipe管道是不够的,需要2个pipe管道才行.以下示例在父进程新建了2个管道,然后再fork子进程.os.dup2()实现输出和输入的重定向.spawn功能类似于subprocess.popen(),既能发送消息给子进程,由能从子子进程获取返回数据.
代码如下:
#!/usr/bin/python
#coding=utf-8
import os, sys
def spawn(prog, *args):
stdinfd = sys.stdin.fileno()
stdoutfd = sys.stdout.fileno()
parentstdin, childstdout = os.pipe()
childstdin, parentstdout= os.pipe()
pid = os.fork()
if pid:
os.close(childstdin)
os.close(childstdout)
os.dup2(parentstdin, stdinfd)#输入流绑定到管道,将输入重定向到管道一端parentstdin
os.dup2(parentstdout, stdoutfd)#输出流绑定到管道,发送到子进程childstdin
else:
os.close(parentstdin)
os.close(parentstdout)
os.dup2(childstdin, stdinfd)#输入流绑定到管道
os.dup2(childstdout, stdoutfd)
args = (prog, ) + args
os.execvp(prog, args)
assert false, ‘execvp failed!’
if __name__ == ‘__main__’:
mypid = os.getpid()
spawn(‘python’, ‘pipetest.py’, ‘spam’)
print ‘hello 1 from parent’, mypid #打印到输出流parentstdout, 经管道发送到子进程childstdin
sys.stdout.flush()
reply = raw_input()
sys.stderr.write(‘parent got: “%s”\n’ % reply)#stderr没有绑定到管道上
print ‘hello 2 from parent’, mypid
sys.stdout.flush()
reply = sys.stdin.readline()#另外一种方式获得子进程返回信息
sys.stderr.write(‘parent got: “%s”\n’ % reply[:-1])
pipetest.py代码如下:
代码如下:
#coding=utf-8
import os, time, sys
mypid = os.getpid()
parentpid = os.getppid()
sys.stderr.write(‘child %d of %d got arg: “%s”\n’ %(mypid, parentpid, sys.argv[1]))
for i in range(2):
time.sleep(3)
recv = raw_input()#从管道获取数据,来源于父经常stdout
time.sleep(3)
send = ‘child %d got: [%s]’ % (mypid, recv)
print(send)#stdout绑定到管道上,发送到父进程stdin
sys.stdout.flush()
输出:
代码如下:
child 7265 of 7264 got arg: “spam”
parent got: “child 7265 got: [hello 1 from parent 7264]”
parent got: “child 7265 got: [hello 2 from parent 7264]”