Example #1
0
def run(args):
    msg_count = int(args[0])
    msg_size = int(args[1])
    print('Hello from Python pipe_src: msg_count = %d, msg_size = %d' % (
        msg_count, msg_size))

    # Ins/outs matching with the the model yaml
    outq = CisOutput('output_pipe')
    print("pipe_src(P): Created I/O channels")

    # Send test message multiple times
    test_msg = '0' * msg_size
    count = 0
    for i in range(msg_count):
        ret = outq.send(test_msg)
        if not ret:
            print('pipe_src(P): SEND ERROR ON MSG %d' % i)
            break
        count += 1
    ret = outq.send_eof()
    if not ret:
        print('pipe_src(P): SEND ERROR ON EOF')

    print('Goodbye from Python source. Sent %d messages.' % count)

    return 0
Example #2
0
def main(iterations, client_index):
    r"""Function to execute client communication with server that computes
    numbers in the Fibonacci sequence.

    Args:
        iterations (int): The number of Fibonacci numbers to log.
        client_index (int): Index of the client in total list of clients.

    Returns:
        int: Exit code. Negative if an error occurred.

    """

    exit_code = 0
    print('Hello from Python client%d: iterations = %d ' %
          (client_index, iterations))

    # Set up connections matching yaml
    # RPC client-side connection will be $(server_name)_$(client_name)
    rpc = CisRpcClient("server_client%d" % client_index, "%d", "%d")
    log = CisOutput("output_log%d" % client_index, 'fib(%-2d) = %-2d\n')

    # Iterate over Fibonacci sequence
    for i in range(1, iterations + 1):

        # Call the server and receive response
        print('client%d(Python): Calling fib(%d)' % (client_index, i))
        ret, result = rpc.call(i)
        if not ret:
            print('client%d(Python): RPC CALL ERROR' % client_index)
            exit_code = -1
            break
        fib = result[0]
        print('client%d(Python): Response fib(%d) = %d' %
              (client_index, i, fib))

        # Log result by sending it to the log connection
        ret = log.send(i, fib)
        if not ret:
            print('client%d(Python): SEND ERROR' % client_index)
            exit_code = -1
            break

    print('Goodbye from Python client%d' % client_index)
    return exit_code
Example #3
0
def run():
    print('Hello from Python pipe_dst')

    # Ins/outs matching with the the model yaml
    inq = CisInput('input_pipe')
    outf = CisOutput('output_file')
    print("pipe_dst(P): Created I/O channels")

    # Continue receiving input from the queue
    count = 0
    while True:
        ret, buf = inq.recv()
        if not ret:
            print("pipe_dst(P): Input channel closed")
            break
        ret = outf.send(buf)
        if not ret:
            print("pipe_dst(P): SEND ERROR ON MSG %d" % count)
            sys.exit(-1)
        count += 1

    print('Goodbye from Python destination. Received %d messages.' % count)
Example #4
0
def fibClient(args):

    iterations = int(args[0])
    print('Hello from Python rpcFibCli: iterations = %d ' % iterations)

    # Set up connections matching yaml
    # RPC client-side connection will be $(server_name)_$(client_name)
    ymlfile = CisInput("yaml_in")
    rpc = CisRpcClient("rpcFibSrv_rpcFibCli", "%d", "%d %d")
    log = CisOutput("output_log")

    # Read entire contents of yaml
    ret, ycontent = ymlfile.recv()
    if not ret:
        print('rpcFibCli(P): RECV ERROR')
        sys.exit(-1)
    print('rpcFibCli: yaml has %d lines' %
          len(ycontent.split(backwards.unicode2bytes('\n'))))

    for i in range(1, iterations + 1):

        # Call the server and receive response
        print('rpcFibCli(P): fib(->%-2d) ::: ' % i, end='')
        ret, fib = rpc.rpcCall(i)
        if not ret:
            print('rpcFibCli(P): RPC CALL ERROR')
            sys.exit(-1)

        # Log result by sending it to the log connection
        s = 'fib(%2d<-) = %-2d<-\n' % fib
        print(s, end='')
        ret = log.send(s)
        if not ret:
            print('rpcFibCli(P): SEND ERROR')
            sys.exit(-1)

    print('Goodbye from Python rpcFibCli')
    sys.exit(0)
Example #5
0
def runhello():
    print('Hello from Python')

    # Ins/outs matching with the the model yaml
    inf = CisInput('inFile')
    outf = CisOutput('outFile')
    inq = CisInput('helloQueueIn')
    outq = CisOutput('helloQueueOut')
    print("hello(P): Created I/O channels")

    # Receive input from a local file
    ret, buf = inf.recv()
    if not ret:
        print('hello(P): ERROR FILE RECV')
        sys.exit(-1)
    print('hello(P): Received %d bytes from file: %s' % (len(buf), buf))

    # Send output to the output queue
    ret = outq.send(buf)
    if not ret:
        print('hello(P): ERROR QUEUE SEND')
        sys.exit(-1)
    print('hello(P): Sent to outq')

    # Receive input form the input queue
    ret, buf = inq.recv()
    if not ret:
        print('hello(P): ERROR QUEUE RECV')
        sys.exit(-1)
    print('hello(P): Received %d bytes from queue: %s' % (len(buf), buf))

    # Send output to a local file
    ret = outf.send(buf)
    if not ret:
        print('hello(P): ERROR FILE SEND')
        sys.exit(-1)
    print('hello(P): Sent to outf')

    print('Goodbye from Python')
# Import classes for input/output channels
from cis_interface.interface.CisInterface import CisInput, CisOutput

# Initialize input/output channels
in_channel = CisInput('inputA')
out_channel = CisOutput('outputA')

# Loop until there is no longer input or the queues are closed
while True:

    # Receive input from input channel
    # If there is an error, the flag will be False
    flag, msg = in_channel.recv()
    if not flag:
        print("Model A: No more input.")
        break

    # Print received message
    print('Model A: %s' % msg)

    # Send output to output channel
    # If there is an error, the flag will be False
    flag = out_channel.send(msg)
    if not flag:
        print("Model A: Error sending output.")
        break
# Import classes for input/output channels
from cis_interface.interface.CisInterface import CisInput, CisOutput

# Initialize input/output channels
in_channel = CisInput('inputB', '%6s\t%d\t%f\n')
out_channel = CisOutput('outputB', '%6s\t%d\t%f\n')

# Loop until there is no longer input or the queues are closed
while True:

    # Receive input from input channel
    # If there is an error, the flag will be False
    flag, msg = in_channel.recv()
    if not flag:
        print("Model B: No more input.")
        break
    name, count, size = msg

    # Print received message
    print('Model B: %s, %d, %f' % (name, count, size))

    # Send output to output channel
    # If there is an error, the flag will be False
    flag = out_channel.send(name, count, size)
    if not flag:
        print("Model B: Error sending output.")
        break
Example #8
0
#!/usr/bin/python
import sys
from cis_interface.interface.CisInterface import CisInput, CisOutput

if __name__ == '__main__':

    # Get input and output channels matching yaml
    in1 = CisInput('input1_python')
    in2 = CisInput('static_python')
    out1 = CisOutput('output_python')
    print('SaM(P): Set up I/O channels')

    # Get input from input1 channel
    ret, adata = in1.recv()
    if not ret:
        print('SaM(P): ERROR RECV from input1')
        sys.exit(-1)
    a = int(adata)
    print('SaM(P): Received %d from input1' % a)

    # Get input from static channel
    ret, bdata = in2.recv()
    if not ret:
        print('SaM(P): ERROR RECV from static')
        sys.exit(-1)
    b = int(bdata)
    print('SaM(P): Received %d from static' % b)

    # Compute sum and send message to output channel
    sum = a + b
    outdata = '%d' % sum