--- /dev/null
+#! /usr/bin/python2
+
+# BSD LICENSE
+#
+# Copyright(c) 2016 Intel Corporation. All rights reserved.
+# All rights reserved.
+#
+# Redistribution and use in source and binary forms, with or without
+# modification, are permitted provided that the following conditions
+# are met:
+#
+# * Redistributions of source code must retain the above copyright
+# notice, this list of conditions and the following disclaimer.
+# * Redistributions in binary form must reproduce the above copyright
+# notice, this list of conditions and the following disclaimer in
+# the documentation and/or other materials provided with the
+# distribution.
+# * Neither the name of Intel Corporation nor the names of its
+# contributors may be used to endorse or promote products derived
+# from this software without specific prior written permission.
+#
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+
+#
+# This script maps the set of pipelines identified (MASTER pipelines are
+# ignored) from the input configuration file to the set of cores
+# provided as input argument and creates configuration files for each of
+# the mapping combinations.
+#
+
+from __future__ import print_function
+import sys
+import errno
+import os
+import re
+import array
+import itertools
+import re
+import argparse
+from collections import namedtuple
+
+# default values
+enable_stage0_traceout = 1
+enable_stage1_traceout = 1
+enable_stage2_traceout = 1
+
+enable_stage1_fileout = 1
+enable_stage2_fileout = 1
+
+Constants = namedtuple('Constants', ['MAX_CORES', 'MAX_PIPELINES'])
+constants = Constants(16, 64)
+
+# pattern for physical core
+pattern_phycore = '^(s|S)\d(c|C)[1-9][0-9]*$'
+reg_phycore = re.compile(pattern_phycore)
+
+
+def popcount(mask):
+ return bin(mask).count("1")
+
+
+def len2mask(length):
+ if (length == 0):
+ return 0
+
+ if (length > 64):
+ sys.exit('error: len2mask - length %i > 64. exiting' % length)
+
+ return int('1' * length, 2)
+
+
+def bitstring_write(n, n_bits):
+ tmpstr = ""
+ if (n_bits > 64):
+ return
+
+ i = n_bits - 1
+ while (i >= 0):
+ cond = (n & (1 << i))
+ if (cond):
+ print('1', end='')
+ tmpstr += '1'
+ else:
+ print('0', end='')
+ tmpstr += '0'
+ i -= 1
+ return tmpstr
+
+
+class Cores0:
+
+ def __init__(self):
+ self.n_pipelines = 0
+
+
+class Cores1:
+
+ def __init__(self):
+ self.pipelines = 0
+ self.n_pipelines = 0
+
+
+class Cores2:
+
+ def __init__(self):
+ self.pipelines = 0
+ self.n_pipelines = 0
+ self.counter = 0
+ self.counter_max = 0
+ self.bitpos = array.array(
+ "L", itertools.repeat(0, constants.MAX_PIPELINES))
+
+
+class Context0:
+
+ def __init__(self):
+ self.cores = [Cores0() for i in range(0, constants.MAX_CORES)]
+ self.n_cores = 0
+ self.n_pipelines = 0
+ self.n_pipelines0 = 0
+ self.pos = 0
+ self.file_comment = ""
+ self.ctx1 = None
+ self.ctx2 = None
+
+ def stage0_print(self):
+ print('printing Context0 obj')
+ print('c0.cores(n_pipelines) = [ ', end='')
+ for cores_count in range(0, constants.MAX_CORES):
+ print(self.cores[cores_count].n_pipelines, end=' ')
+ print(']')
+ print('c0.n_cores = %d' % self.n_cores)
+ print('c0.n_pipelines = %d' % self.n_pipelines)
+ print('c0.n_pipelines0 = %d' % self.n_pipelines0)
+ print('c0.pos = %d' % self.pos)
+ print('c0.file_comment = %s' % self.file_comment)
+ if (self.ctx1 is not None):
+ print('c0.ctx1 = ', end='')
+ print(repr(self.ctx1))
+ else:
+ print('c0.ctx1 = None')
+
+ if (self.ctx2 is not None):
+ print('c0.ctx2 = ', end='')
+ print(repr(self.ctx2))
+ else:
+ print('c0.ctx2 = None')
+
+ def stage0_init(self, num_cores, num_pipelines, ctx1, ctx2):
+ self.n_cores = num_cores
+ self.n_pipelines = num_pipelines
+ self.ctx1 = ctx1
+ self.ctx2 = ctx2
+
+ def stage0_process(self):
+ # stage0 init
+ self.cores[0].n_pipelines = self.n_pipelines
+ self.n_pipelines0 = 0
+ self.pos = 1
+
+ while True:
+ # go forward
+ while True:
+ if ((self.pos < self.n_cores) and (self.n_pipelines0 > 0)):
+ self.cores[self.pos].n_pipelines = min(
+ self.cores[self.pos - 1].n_pipelines,
+ self.n_pipelines0)
+ self.n_pipelines0 -= self.cores[self.pos].n_pipelines
+ self.pos += 1
+ else:
+ break
+
+ # check solution
+ if (self.n_pipelines0 == 0):
+ self.stage0_log()
+ self.ctx1.stage1_init(self, self.ctx2) # self is object c0
+ self.ctx1.stage1_process()
+
+ # go backward
+ while True:
+ if (self.pos == 0):
+ return
+
+ self.pos -= 1
+ if ((self.cores[self.pos].n_pipelines > 1) and
+ (self.pos != (self.n_cores - 1))):
+ break
+
+ self.n_pipelines0 += self.cores[self.pos].n_pipelines
+ self.cores[self.pos].n_pipelines = 0
+
+ # rearm
+ self.cores[self.pos].n_pipelines -= 1
+ self.n_pipelines0 += 1
+ self.pos += 1
+
+ def stage0_log(self):
+ tmp_file_comment = ""
+ if(enable_stage0_traceout != 1):
+ return
+
+ print('STAGE0: ', end='')
+ tmp_file_comment += 'STAGE0: '
+ for cores_count in range(0, self.n_cores):
+ print('C%d = %d\t'
+ % (cores_count,
+ self.cores[cores_count].n_pipelines), end='')
+ tmp_file_comment += "C{} = {}\t".format(
+ cores_count, self.cores[cores_count].n_pipelines)
+ # end for
+ print('')
+ self.ctx1.stage0_file_comment = tmp_file_comment
+ self.ctx2.stage0_file_comment = tmp_file_comment
+
+
+class Context1:
+ _fileTrace = None
+
+ def __init__(self):
+ self.cores = [Cores1() for i in range(constants.MAX_CORES)]
+ self.n_cores = 0
+ self.n_pipelines = 0
+ self.pos = 0
+ self.stage0_file_comment = ""
+ self.stage1_file_comment = ""
+
+ self.ctx2 = None
+ self.arr_pipelines2cores = []
+
+ def stage1_reset(self):
+ for i in range(constants.MAX_CORES):
+ self.cores[i].pipelines = 0
+ self.cores[i].n_pipelines = 0
+
+ self.n_cores = 0
+ self.n_pipelines = 0
+ self.pos = 0
+ self.ctx2 = None
+ # clear list
+ del self.arr_pipelines2cores[:]
+
+ def stage1_print(self):
+ print('printing Context1 obj')
+ print('ctx1.cores(pipelines,n_pipelines) = [ ', end='')
+ for cores_count in range(0, constants.MAX_CORES):
+ print('(%d,%d)' % (self.cores[cores_count].pipelines,
+ self.cores[cores_count].n_pipelines), end=' ')
+ print(']')
+ print('ctx1.n_cores = %d' % self.n_cores)
+ print('ctx1.n_pipelines = %d' % self.n_pipelines)
+ print('ctx1.pos = %d' % self.pos)
+ print('ctx1.stage0_file_comment = %s' % self.stage0_file_comment)
+ print('ctx1.stage1_file_comment = %s' % self.stage1_file_comment)
+ if (self.ctx2 is not None):
+ print('ctx1.ctx2 = ', end='')
+ print(self.ctx2)
+ else:
+ print('ctx1.ctx2 = None')
+
+ def stage1_init(self, c0, ctx2):
+ self.stage1_reset()
+ self.n_cores = 0
+ while (c0.cores[self.n_cores].n_pipelines > 0):
+ self.n_cores += 1
+
+ self.n_pipelines = c0.n_pipelines
+ self.ctx2 = ctx2
+
+ self.arr_pipelines2cores = [0] * self.n_pipelines
+
+ i = 0
+ while (i < self.n_cores):
+ self.cores[i].n_pipelines = c0.cores[i].n_pipelines
+ i += 1
+
+ def stage1_process(self):
+ pipelines_max = len2mask(self.n_pipelines)
+ while True:
+ pos = 0
+ overlap = 0
+
+ if (self.cores[self.pos].pipelines == pipelines_max):
+ if (self.pos == 0):
+ return
+
+ self.cores[self.pos].pipelines = 0
+ self.pos -= 1
+ continue
+
+ self.cores[self.pos].pipelines += 1
+ if (popcount(self.cores[self.pos].pipelines) !=
+ self.cores[self.pos].n_pipelines):
+ continue
+
+ overlap = 0
+ pos = 0
+ while (pos < self.pos):
+ if ((self.cores[self.pos].pipelines) &
+ (self.cores[pos].pipelines)):
+ overlap = 1
+ break
+ pos += 1
+
+ if (overlap):
+ continue
+
+ if ((self.pos > 0) and
+ ((self.cores[self.pos].n_pipelines) ==
+ (self.cores[self.pos - 1].n_pipelines)) and
+ ((self.cores[self.pos].pipelines) <
+ (self.cores[self.pos - 1].pipelines))):
+ continue
+
+ if (self.pos == self.n_cores - 1):
+ self.stage1_log()
+ self.ctx2.stage2_init(self)
+ self.ctx2.stage2_process()
+
+ if (self.pos == 0):
+ return
+
+ self.cores[self.pos].pipelines = 0
+ self.pos -= 1
+ continue
+
+ self.pos += 1
+
+ def stage1_log(self):
+ tmp_file_comment = ""
+ if(enable_stage1_traceout == 1):
+ print('STAGE1: ', end='')
+ tmp_file_comment += 'STAGE1: '
+ i = 0
+ while (i < self.n_cores):
+ print('C%d = [' % i, end='')
+ tmp_file_comment += "C{} = [".format(i)
+
+ j = self.n_pipelines - 1
+ while (j >= 0):
+ cond = ((self.cores[i].pipelines) & (1 << j))
+ if (cond):
+ print('1', end='')
+ tmp_file_comment += '1'
+ else:
+ print('0', end='')
+ tmp_file_comment += '0'
+ j -= 1
+
+ print(']\t', end='')
+ tmp_file_comment += ']\t'
+ i += 1
+
+ print('\n', end='')
+ self.stage1_file_comment = tmp_file_comment
+ self.ctx2.stage1_file_comment = tmp_file_comment
+
+ # check if file traceing is enabled
+ if(enable_stage1_fileout != 1):
+ return
+
+ # spit out the combination to file
+ self.stage1_process_file()
+
+ def stage1_updateCoresInBuf(self, nPipeline, sCore):
+ rePipeline = self._fileTrace.arr_pipelines[nPipeline]
+ rePipeline = rePipeline.replace("[", "\[").replace("]", "\]")
+ reCore = 'core\s*=\s*((\d*)|(((s|S)\d)?(c|C)[1-9][0-9]*)).*\n'
+ sSubs = 'core = ' + sCore + '\n'
+
+ reg_pipeline = re.compile(rePipeline)
+ search_match = reg_pipeline.search(self._fileTrace.in_buf)
+
+ if(search_match):
+ pos = search_match.start()
+ substr1 = self._fileTrace.in_buf[:pos]
+ substr2 = self._fileTrace.in_buf[pos:]
+ substr2 = re.sub(reCore, sSubs, substr2, 1)
+ self._fileTrace.in_buf = substr1 + substr2
+
+ def stage1_process_file(self):
+ outFileName = os.path.join(self._fileTrace.out_path,
+ self._fileTrace.prefix_outfile)
+ outFileName += "_{}CoReS".format(self.n_cores)
+
+ i = 0 # represents core number
+ while (i < self.n_cores):
+ j = self.n_pipelines - 1
+ pipeline_idx = 0
+ while(j >= 0):
+ cond = ((self.cores[i].pipelines) & (1 << j))
+ if (cond):
+ # update the pipelines array to match the core
+ # only in case of cond match
+ self.arr_pipelines2cores[
+ pipeline_idx] = fileTrace.in_physical_cores[i]
+
+ j -= 1
+ pipeline_idx += 1
+
+ i += 1
+
+ # update the in_buf as per the arr_pipelines2cores
+ for pipeline_idx in range(len(self.arr_pipelines2cores)):
+ outFileName += "_{}".format(self.arr_pipelines2cores[pipeline_idx])
+ self.stage1_updateCoresInBuf(
+ pipeline_idx, self.arr_pipelines2cores[pipeline_idx])
+
+ # by now the in_buf is all set to be written to file
+ outFileName += self._fileTrace.suffix_outfile
+ outputFile = open(outFileName, "w")
+
+ # write out the comments
+ strTruncated = ("", "(Truncated)")[self._fileTrace.ncores_truncated]
+ outputFile.write(
+ "; =============== Pipeline-to-Core Mapping ================\n"
+ "; Generated from file {}\n"
+ "; Input pipelines = {}\n"
+ "; Input cores = {}\n"
+ "; N_PIPELINES = {} N_CORES = {} {} hyper_thread = {}\n"
+ .format(
+ self._fileTrace.in_file_namepath,
+ fileTrace.arr_pipelines,
+ fileTrace.in_physical_cores,
+ self._fileTrace.n_pipelines,
+ self._fileTrace.n_cores,
+ strTruncated,
+ self._fileTrace.hyper_thread))
+
+ outputFile.write(
+ "; {stg0cmt}\n"
+ "; {stg1cmt}\n"
+ "; ========================================================\n"
+ "; \n"
+ .format(
+ stg0cmt=self.stage0_file_comment,
+ stg1cmt=self.stage1_file_comment))
+
+ # write buffer contents
+ outputFile.write(self._fileTrace.in_buf)
+ outputFile.flush()
+ outputFile.close()
+
+
+class Context2:
+ _fileTrace = None
+
+ def __init__(self):
+ self.cores = [Cores2() for i in range(constants.MAX_CORES)]
+ self.n_cores = 0
+ self.n_pipelines = 0
+ self.pos = 0
+ self.stage0_file_comment = ""
+ self.stage1_file_comment = ""
+ self.stage2_file_comment = ""
+
+ # each array entry is a pipeline mapped to core stored as string
+ # pipeline ranging from 1 to n, however stored in zero based array
+ self.arr2_pipelines2cores = []
+
+ def stage2_print(self):
+ print('printing Context2 obj')
+ print('ctx2.cores(pipelines, n_pipelines, counter, counter_max) =')
+ for cores_count in range(0, constants.MAX_CORES):
+ print('core[%d] = (%d,%d,%d,%d)' % (
+ cores_count,
+ self.cores[cores_count].pipelines,
+ self.cores[cores_count].n_pipelines,
+ self.cores[cores_count].counter,
+ self.cores[cores_count].counter_max))
+
+ print('ctx2.n_cores = %d' % self.n_cores, end='')
+ print('ctx2.n_pipelines = %d' % self.n_pipelines, end='')
+ print('ctx2.pos = %d' % self.pos)
+ print('ctx2.stage0_file_comment = %s' %
+ self.self.stage0_file_comment)
+ print('ctx2.stage1_file_comment = %s' %
+ self.self.stage1_file_comment)
+ print('ctx2.stage2_file_comment = %s' %
+ self.self.stage2_file_comment)
+
+ def stage2_reset(self):
+ for i in range(0, constants.MAX_CORES):
+ self.cores[i].pipelines = 0
+ self.cores[i].n_pipelines = 0
+ self.cores[i].counter = 0
+ self.cores[i].counter_max = 0
+
+ for idx in range(0, constants.MAX_PIPELINES):
+ self.cores[i].bitpos[idx] = 0
+
+ self.n_cores = 0
+ self.n_pipelines = 0
+ self.pos = 0
+ # clear list
+ del self.arr2_pipelines2cores[:]
+
+ def bitpos_load(self, coreidx):
+ i = j = 0
+ while (i < self.n_pipelines):
+ if ((self.cores[coreidx].pipelines) &
+ (1 << i)):
+ self.cores[coreidx].bitpos[j] = i
+ j += 1
+ i += 1
+ self.cores[coreidx].n_pipelines = j
+
+ def bitpos_apply(self, in_buf, pos, n_pos):
+ out = 0
+ for i in range(0, n_pos):
+ out |= (in_buf & (1 << i)) << (pos[i] - i)
+
+ return out
+
+ def stage2_init(self, ctx1):
+ self.stage2_reset()
+ self.n_cores = ctx1.n_cores
+ self.n_pipelines = ctx1.n_pipelines
+
+ self.arr2_pipelines2cores = [''] * self.n_pipelines
+
+ core_idx = 0
+ while (core_idx < self.n_cores):
+ self.cores[core_idx].pipelines = ctx1.cores[core_idx].pipelines
+
+ self.bitpos_load(core_idx)
+ core_idx += 1
+
+ def stage2_log(self):
+ tmp_file_comment = ""
+ if(enable_stage2_traceout == 1):
+ print('STAGE2: ', end='')
+ tmp_file_comment += 'STAGE2: '
+
+ for i in range(0, self.n_cores):
+ mask = len2mask(self.cores[i].n_pipelines)
+ pipelines_ht0 = self.bitpos_apply(
+ (~self.cores[i].counter) & mask,
+ self.cores[i].bitpos,
+ self.cores[i].n_pipelines)
+
+ pipelines_ht1 = self.bitpos_apply(
+ self.cores[i].counter,
+ self.cores[i].bitpos,
+ self.cores[i].n_pipelines)
+
+ print('C%dHT0 = [' % i, end='')
+ tmp_file_comment += "C{}HT0 = [".format(i)
+ tmp_file_comment += bitstring_write(
+ pipelines_ht0, self.n_pipelines)
+
+ print(']\tC%dHT1 = [' % i, end='')
+ tmp_file_comment += "]\tC{}HT1 = [".format(i)
+ tmp_file_comment += bitstring_write(
+ pipelines_ht1, self.n_pipelines)
+ print(']\t', end='')
+ tmp_file_comment += ']\t'
+
+ print('')
+ self.stage2_file_comment = tmp_file_comment
+
+ # check if file traceing is enabled
+ if(enable_stage2_fileout != 1):
+ return
+ # spit out the combination to file
+ self.stage2_process_file()
+
+ def stage2_updateCoresInBuf(self, nPipeline, sCore):
+ rePipeline = self._fileTrace.arr_pipelines[nPipeline]
+ rePipeline = rePipeline.replace("[", "\[").replace("]", "\]")
+ reCore = 'core\s*=\s*((\d*)|(((s|S)\d)?(c|C)[1-9][0-9]*)).*\n'
+ sSubs = 'core = ' + sCore + '\n'
+
+ reg_pipeline = re.compile(rePipeline)
+ search_match = reg_pipeline.search(self._fileTrace.in_buf)
+
+ if(search_match):
+ pos = search_match.start()
+ substr1 = self._fileTrace.in_buf[:pos]
+ substr2 = self._fileTrace.in_buf[pos:]
+ substr2 = re.sub(reCore, sSubs, substr2, 1)
+ self._fileTrace.in_buf = substr1 + substr2
+
+ def pipelines2cores(self, n, n_bits, nCore, bHT):
+ if (n_bits > 64):
+ return
+
+ i = n_bits - 1
+ pipeline_idx = 0
+ while (i >= 0):
+ cond = (n & (1 << i))
+ if (cond):
+ # update the pipelines array to match the core
+ # only in case of cond match
+ # PIPELINE0 and core 0 are reserved
+ if(bHT):
+ tmpCore = fileTrace.in_physical_cores[nCore] + 'h'
+ self.arr2_pipelines2cores[pipeline_idx] = tmpCore
+ else:
+ self.arr2_pipelines2cores[pipeline_idx] = \
+ fileTrace.in_physical_cores[nCore]
+
+ i -= 1
+ pipeline_idx += 1
+
+ def stage2_process_file(self):
+ outFileName = os.path.join(self._fileTrace.out_path,
+ self._fileTrace.prefix_outfile)
+ outFileName += "_{}CoReS".format(self.n_cores)
+
+ for i in range(0, self.n_cores):
+ mask = len2mask(self.cores[i].n_pipelines)
+ pipelines_ht0 = self.bitpos_apply((~self.cores[i].counter) & mask,
+ self.cores[i].bitpos,
+ self.cores[i].n_pipelines)
+
+ pipelines_ht1 = self.bitpos_apply(self.cores[i].counter,
+ self.cores[i].bitpos,
+ self.cores[i].n_pipelines)
+
+ # update pipelines to core mapping
+ self.pipelines2cores(pipelines_ht0, self.n_pipelines, i, False)
+ self.pipelines2cores(pipelines_ht1, self.n_pipelines, i, True)
+
+ # update the in_buf as per the arr_pipelines2cores
+ for pipeline_idx in range(len(self.arr2_pipelines2cores)):
+ outFileName += "_{}".format(
+ self.arr2_pipelines2cores[pipeline_idx])
+ self.stage2_updateCoresInBuf(
+ pipeline_idx, self.arr2_pipelines2cores[pipeline_idx])
+
+ # by now the in_buf is all set to be written to file
+ outFileName += self._fileTrace.suffix_outfile
+ outputFile = open(outFileName, "w")
+
+ # write the file comments
+ strTruncated = ("", "(Truncated)")[self._fileTrace.ncores_truncated]
+ outputFile.write(
+ "; =============== Pipeline-to-Core Mapping ================\n"
+ "; Generated from file {}\n"
+ "; Input pipelines = {}\n"
+ "; Input cores = {}\n"
+ "; N_PIPELINES = {} N_CORES = {} {} hyper_thread = {} \n"
+ .format(
+ self._fileTrace.in_file_namepath,
+ fileTrace.arr_pipelines,
+ fileTrace.in_physical_cores,
+ self._fileTrace.n_pipelines,
+ self._fileTrace.n_cores,
+ strTruncated,
+ self._fileTrace.hyper_thread))
+
+ outputFile.write(
+ "; {stg0cmt}\n"
+ "; {stg1cmt}\n"
+ "; {stg2cmt}\n"
+ "; ========================================================\n"
+ "; \n"
+ .format(
+ stg0cmt=self.stage0_file_comment,
+ stg1cmt=self.stage1_file_comment,
+ stg2cmt=self.stage2_file_comment))
+
+ # write the buffer contents
+ outputFile.write(self._fileTrace.in_buf)
+ outputFile.flush()
+ outputFile.close()
+
+ def stage2_process(self):
+ i = 0
+ while(i < self.n_cores):
+ self.cores[i].counter_max = len2mask(
+ self.cores[i].n_pipelines - 1)
+ i += 1
+
+ self.pos = self.n_cores - 1
+ while True:
+ if (self.pos == self.n_cores - 1):
+ self.stage2_log()
+
+ if (self.cores[self.pos].counter ==
+ self.cores[self.pos].counter_max):
+ if (self.pos == 0):
+ return
+
+ self.cores[self.pos].counter = 0
+ self.pos -= 1
+ continue
+
+ self.cores[self.pos].counter += 1
+ if(self.pos < self.n_cores - 1):
+ self.pos += 1
+
+
+class FileTrace:
+
+ def __init__(self, filenamepath):
+ self.in_file_namepath = os.path.abspath(filenamepath)
+ self.in_filename = os.path.basename(self.in_file_namepath)
+ self.in_path = os.path.dirname(self.in_file_namepath)
+
+ filenamesplit = self.in_filename.split('.')
+ self.prefix_outfile = filenamesplit[0]
+ self.suffix_outfile = ".cfg"
+
+ # output folder: in the same folder as input file
+ # create new folder in the name of input file
+ self.out_path = os.path.join(
+ os.path.abspath(os.path.dirname(__file__)),
+ self.prefix_outfile)
+
+ try:
+ os.makedirs(self.out_path)
+ except OSError as excep:
+ if excep.errno == errno.EEXIST and os.path.isdir(self.out_path):
+ pass
+ else:
+ raise
+
+ self.in_buf = None
+ self.arr_pipelines = [] # holds the positions of search
+
+ self.max_cores = 15
+ self.max_pipelines = 15
+
+ self.in_physical_cores = None
+ self.hyper_thread = None
+
+ # save the num of pipelines determined from input file
+ self.n_pipelines = 0
+ # save the num of cores input (or the truncated value)
+ self.n_cores = 0
+ self.ncores_truncated = False
+
+ def print_TraceFile(self):
+ print("self.in_file_namepath = ", self.in_file_namepath)
+ print("self.in_filename = ", self.in_filename)
+ print("self.in_path = ", self.in_path)
+ print("self.out_path = ", self.out_path)
+ print("self.prefix_outfile = ", self.prefix_outfile)
+ print("self.suffix_outfile = ", self.suffix_outfile)
+ print("self.in_buf = ", self.in_buf)
+ print("self.arr_pipelines =", self.arr_pipelines)
+ print("self.in_physical_cores", self.in_physical_cores)
+ print("self.hyper_thread", self.hyper_thread)
+
+
+def process(n_cores, n_pipelines, fileTrace):
+ '''process and map pipelines, cores.'''
+ if (n_cores == 0):
+ sys.exit('N_CORES is 0, exiting')
+
+ if (n_pipelines == 0):
+ sys.exit('N_PIPELINES is 0, exiting')
+
+ if (n_cores > n_pipelines):
+ print('\nToo many cores, truncating N_CORES to N_PIPELINES')
+ n_cores = n_pipelines
+ fileTrace.ncores_truncated = True
+
+ fileTrace.n_pipelines = n_pipelines
+ fileTrace.n_cores = n_cores
+
+ strTruncated = ("", "(Truncated)")[fileTrace.ncores_truncated]
+ print("N_PIPELINES = {}, N_CORES = {} {}"
+ .format(n_pipelines, n_cores, strTruncated))
+ print("---------------------------------------------------------------")
+
+ ctx0_inst = Context0()
+ ctx1_inst = Context1()
+ ctx2_inst = Context2()
+
+ # initialize the class variables
+ ctx1_inst._fileTrace = fileTrace
+ ctx2_inst._fileTrace = fileTrace
+
+ ctx0_inst.stage0_init(n_cores, n_pipelines, ctx1_inst, ctx2_inst)
+ ctx0_inst.stage0_process()
+
+
+def validate_core(core):
+ match = reg_phycore.match(core)
+ if(match):
+ return True
+ else:
+ return False
+
+
+def validate_phycores(phy_cores):
+ '''validate physical cores, check if unique.'''
+ # eat up whitespaces
+ phy_cores = phy_cores.strip().split(',')
+
+ # check if the core list is unique
+ if(len(phy_cores) != len(set(phy_cores))):
+ print('list of physical cores has duplicates')
+ return None
+
+ for core in phy_cores:
+ if not validate_core(core):
+ print('invalid physical core specified.')
+ return None
+ return phy_cores
+
+
+def scanconfigfile(fileTrace):
+ '''scan input file for pipelines, validate then process.'''
+ # open file
+ filetoscan = open(fileTrace.in_file_namepath, 'r')
+ fileTrace.in_buf = filetoscan.read()
+
+ # reset iterator on open file
+ filetoscan.seek(0)
+
+ # scan input file for pipelines
+ # master pipelines to be ignored
+ pattern_pipeline = r'\[PIPELINE\d*\]'
+ pattern_mastertype = r'type\s*=\s*MASTER'
+
+ pending_pipeline = False
+ for line in filetoscan:
+ match_pipeline = re.search(pattern_pipeline, line)
+ match_type = re.search('type\s*=', line)
+ match_mastertype = re.search(pattern_mastertype, line)
+
+ if(match_pipeline):
+ sPipeline = line[match_pipeline.start():match_pipeline.end()]
+ pending_pipeline = True
+ elif(match_type):
+ # found a type definition...
+ if(match_mastertype is None):
+ # and this is not a master pipeline...
+ if(pending_pipeline):
+ # add it to the list of pipelines to be mapped
+ fileTrace.arr_pipelines.append(sPipeline)
+ pending_pipeline = False
+ else:
+ # and this is a master pipeline...
+ # ignore the current and move on to next
+ sPipeline = ""
+ pending_pipeline = False
+ filetoscan.close()
+
+ # validate if pipelines are unique
+ if(len(fileTrace.arr_pipelines) != len(set(fileTrace.arr_pipelines))):
+ sys.exit('Error: duplicate pipelines in input file')
+
+ num_pipelines = len(fileTrace.arr_pipelines)
+ num_cores = len(fileTrace.in_physical_cores)
+
+ print("-------------------Pipeline-to-core mapping--------------------")
+ print("Input pipelines = {}\nInput cores = {}"
+ .format(fileTrace.arr_pipelines, fileTrace.in_physical_cores))
+
+ # input configuration file validations goes here
+ if (num_cores > fileTrace.max_cores):
+ sys.exit('Error: number of cores specified > max_cores (%d)' %
+ fileTrace.max_cores)
+
+ if (num_pipelines > fileTrace.max_pipelines):
+ sys.exit('Error: number of pipelines in input \
+ cfg file > max_pipelines (%d)' % fileTrace.max_pipelines)
+
+ # call process to generate pipeline-to-core mapping, trace and log
+ process(num_cores, num_pipelines, fileTrace)
+
+
+if __name__ == "__main__":
+ parser = argparse.ArgumentParser(description='mappipelines')
+
+ reqNamedGrp = parser.add_argument_group('required named args')
+ reqNamedGrp.add_argument(
+ '-i',
+ '--input-file',
+ type=argparse.FileType('r'),
+ help='Input config file',
+ required=True)
+
+ reqNamedGrp.add_argument(
+ '-pc',
+ '--physical-cores',
+ type=validate_phycores,
+ help='''Enter available CPU cores in
+ format:\"<core>,<core>,...\"
+ where each core format: \"s<SOCKETID>c<COREID>\"
+ where SOCKETID={0..9}, COREID={1-99}''',
+ required=True)
+
+ # add optional arguments
+ parser.add_argument(
+ '-ht',
+ '--hyper-thread',
+ help='enable/disable hyper threading. default is ON',
+ default='ON',
+ choices=['ON', 'OFF'])
+
+ parser.add_argument(
+ '-nO',
+ '--no-output-file',
+ help='''disable output config file generation.
+ Output file generation is enabled by default''',
+ action="store_true")
+
+ args = parser.parse_args()
+
+ if(args.physical_cores is None):
+ parser.error("invalid physical_cores specified")
+
+ # create object of FileTrace and initialise
+ fileTrace = FileTrace(args.input_file.name)
+ fileTrace.in_physical_cores = args.physical_cores
+ fileTrace.hyper_thread = args.hyper_thread
+
+ if(fileTrace.hyper_thread == 'OFF'):
+ print("!!!!disabling stage2 HT!!!!")
+ enable_stage2_traceout = 0
+ enable_stage2_fileout = 0
+ elif(fileTrace.hyper_thread == 'ON'):
+ print("!!!!HT enabled. disabling stage1 file generation.!!!!")
+ enable_stage1_fileout = 0
+
+ if(args.no_output_file is True):
+ print("!!!!disabling stage1 and stage2 fileout!!!!")
+ enable_stage1_fileout = 0
+ enable_stage2_fileout = 0
+
+ scanconfigfile(fileTrace)