- #! /usr/bin/python
-
- import os, struct, sys, random
-
- import gd
-
- from cpushare.proto_const import *
- from cpushare.exceptions import CompilationError
-
- # Our input data
- source = False
- result = False
- todo = 0
-
- # Parse command line
- if len(sys.argv) < 4:
- print 'Usage: %s <buy_order.cpu> -<mode> [image list]' % (sys.argv[0],)
- sys.exit(-1)
- mode = sys.argv[2]
- done = 0
- source = sys.argv[3:]
- result = [False] * len(source)
-
- class buy_state_machine_class(object):
- buy_api = '0.0.0'
-
- w, h = 0, 0
- index = -1
- answer = ''
-
- def __init__(self, protocol):
- self.protocol = protocol
- self.handler = self.stringReceived
-
- def start(self):
- global mode, todo, source
- gd.gdMaxColors = 256 * 256 * 256
- while todo < len(source):
- try:
- self.index = todo
- im = gd.image(source[self.index])
- break
- except:
- todo += 1
- self.result = "Error\n"
- if todo >= len(source):
- return # We're finished... FIXME: isn't the transaction stuck?
- todo += 1
- # Send argument count
- self.protocol.sendString(PROTO_SECCOMP_FORWARD + chr(3))
- # Send arguments
- msg = chr(3)
- msg += "bytecode\0"
- msg += mode + "\0"
- msg += source[self.index] + "\0"
- self.protocol.sendString(PROTO_SECCOMP_FORWARD + msg)
- # Send image size
- (self.w, self.h) = (w, h) = im.size()
- print 'sending %s (%dx%d)' % (source[self.index], w, h)
- msg = chr(w / 256) + chr(w % 256) + chr(h / 256) + chr(h % 256)
- self.protocol.sendString(PROTO_SECCOMP_FORWARD + msg)
- # Send image contents
- msg = ''
- for y in range(h):
- for x in range(w):
- p = im.getPixel((x, y))
- rgb = im.colorComponents(p)
- msg += chr(rgb[1]) # use green coordinate
- self.protocol.sendString(PROTO_SECCOMP_FORWARD + msg)
- print '%s bytes sent' % len(msg)
-
- def stringReceived(self, string):
- control = string[0]
- data = string[1:]
-
- if control == PROTO_SECCOMP_FORWARD:
- self.answer += data
- if ord(self.answer[-1]) != 0:
- return
- global done, result
- result[self.index] = self.answer[:-1]
- print self.answer[:-1],
- self.protocol.sendString(PROTO_SECCOMP_SUCCESS)
- done += 1
- if done < len(source):
- return
- from twisted.internet import reactor
- reactor.stop()
- elif control == PROTO_SECCOMP_SIGNAL:
- print 'Checkpoint starting'
- elif control == PROTO_LOG:
- print repr(data)
- else:
- if control == PROTO_SECCOMP_SUCCESS:
- pass
- elif control == PROTO_SECCOMP_FAILURE:
- status = struct.unpack('!i', data)[0]
- exit_code = status >> 8
- signal = status & 0xff
- s = 'Seccomp failure: status %d, exit_code %d, signal %d.' % \
- (status, exit_code, signal)
- print s
- else:
- s = 'Unknown failure %d - %s' % (ord(control), repr(string))
- self.protocol.sendString(PROTO_SECCOMP_FAILURE + s)
- print s
- self.protocol.sendString(PROTO_SECCOMP_FAILURE)
- self.protocol.transport.loseConnection()
-
- def connectionLost(self):
- pass
-
- # Build local module
- from new import module
- m = module('cpushare_buy')
-
- # Create bytecode -- i686 only
- from cpushare.seccomp_gen import seccomp_gen_class
- m.seccomp_gen_hash = {}
- m.seccomp_gen_hash['i686'] = seccomp_gen_class('bytecode', 'i686')
- m.seccomp_gen_hash['i686'].heap_kbytes = 1
- m.seccomp_gen_hash['i686'].stack_kbytes = 1
-
- # Estimate of the max number of seconds that the sell client
- # will take to checkpoint and send its state back to us
- m.checkpoint_sec = 10
-
- # Our buying state machine
- m.buy_state_machine_class = buy_state_machine_class
-
- # Append our module to the global list of modules
- sys.modules['cpushare_buy'] = m
-
- # Build a new command line and run twistd
- sys.argv = [sys.argv[0], '-q', '-n', 'cpushare', '--order', sys.argv[1]]
- from twisted.scripts.twistd import run
- run()
-
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