litex/misoclib/tools/litescope/host/dump/sigrok.py

import os
import math
import shutil
import zipfile
import re
from collections import OrderedDict

from misoclib.tools.litescope.host.dump import *

class SigrokDump(Dump):
	def __init__(self, init_dump=None, samplerate=50000000):
		Dump.__init__(self)
		if init_dump:
			self.vars = init_dump.vars
		self.samplerate = samplerate

	def write_version(self):
		f = open("version", "w")
		f.write("1")
		f.close()

	def write_metadata(self, name):
		f = open("metadata", "w")
		r = """
[global]
sigrok version = 0.2.0
[device 1]
driver = litescope
capturefile = logic-1
unitsize = 1
total probes = {}
samplerate = {} KHz
""".format(
		len(self.vars),
		self.samplerate//1000,
	)
		for i, var in enumerate(self.vars):
			r += "probe{} = {}\n".format(i+1, var.name)
		f.write(r)
		f.close()

	def write_data(self):
		# XXX are probes limited to 1 bit?
		data_bits = math.ceil(len(self.vars)/8)*8
		data_len = 0
		for var in self.vars:
			data_len = max(data_len, len(var))
		datas = []
		for i in range(data_len):
			data = 0
			for j, var in enumerate(reversed(self.vars)):
				data = data << 1
				try:
					data |= var.values[i] %2
				except:
					pass
			datas.append(data)
		f = open("logic-1", "wb")
		for data in datas:
			f.write(data.to_bytes(data_bits//8, "big"))
		f.close()

	def zip(self, name):
		f = zipfile.ZipFile(name + ".sr", "w")
		os.chdir(name)
		f.write("version")
		f.write("metadata")
		f.write("logic-1")
		os.chdir("..")
		f.close()

	def write(self, filename):
		name, ext = os.path.splitext(filename)
		if os.path.exists(name):
			shutil.rmtree(name)
		os.makedirs(name)
		os.chdir(name)
		self.write_version()
		self.write_metadata(name)
		self.write_data()
		os.chdir("..")
		self.zip(name)
		shutil.rmtree(name)

	def unzip(self, filename, name):
		f = open(filename, "rb")
		z = zipfile.ZipFile(f)
		if os.path.exists(name):
			shutil.rmtree(name)
			os.makedirs(name)
		for file in z.namelist():
			z.extract(file, name)
		f.close()

	def read_metadata(self):
		probes = OrderedDict()
		f = open("metadata", "r")
		for l in f:
			m = re.search("probe([0-9]+) = (\w+)", l, re.I)
			if m is not None:
				index = int(m.group(1))
				name = m.group(2)
				probes[name] = index
			m = re.search("samplerate = ([0-9]+) kHz", l, re.I)
			if m is not None:
				self.samplerate = int(m.group(1))*1000
			m = re.search("samplerate = ([0-9]+) mHz", l, re.I)
			if m is not None:
				self.samplerate = int(m.group(1))*1000000
		f.close()
		return probes

	def read_data(self, name, nprobes):
		datas = []
		f = open("logic-1", "rb")
		while True:
			data = f.read(math.ceil(nprobes/8))
			if data == bytes('', "utf-8"):
				break
			data = int.from_bytes(data, "big")
			datas.append(data)
		f.close()
		return datas

	def read(self, filename):
		self.vars = []
		name, ext = os.path.splitext(filename)
		self.unzip(filename, name)
		os.chdir(name)
		probes = self.read_metadata()
		datas = self.read_data(name, len(probes.keys()))
		os.chdir("..")
		shutil.rmtree(name)

		for k, v in probes.items():
			probe_data = []
			for data in datas:
				probe_data.append((data >> (v-1)) & 0x1)
			self.add(Var(k, 1, probe_data))

if __name__ == '__main__':
	dump = SigrokDump()
	dump.add(Var("foo1", 1, [0,1,0,1,0,1]))
	dump.add(Var("foo2", 2, [1,0,1,0,1,0,1,0,1,0,1,0,1,0,1,0,1,0]))
	ramp = [i%128 for i in range(1024)]
	dump.add(Var("ramp", 16, ramp))
	dump.write("dump.sr")
	dump.read("dump.sr")
	dump.write("dump_copy.sr")
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00			`import os`
			`import math`
			`import shutil`
			`import zipfile`
			`import re`
			`from collections import OrderedDict`

litescope: move files and modify import to misoclib.tools.litescope 2015-02-28 04:27:16 -05:00			`from misoclib.tools.litescope.host.dump import *`
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00
			`class SigrokDump(Dump):`
dump/sigrok: fix against real dumps, now able to import and export 2015-02-18 15:45:36 -05:00			`def __init__(self, init_dump=None, samplerate=50000000):`
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00			`Dump.__init__(self)`
			`if init_dump:`
			`self.vars = init_dump.vars`
simplify RLE 2015-02-18 17:35:41 -05:00			`self.samplerate = samplerate`
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00
			`def write_version(self):`
			`f = open("version", "w")`
			`f.write("1")`
			`f.close()`

			`def write_metadata(self, name):`
			`f = open("metadata", "w")`
			`r = """`
			`[global]`
			`sigrok version = 0.2.0`
			`[device 1]`
			`driver = litescope`
dump/sigrok: fix against real dumps, now able to import and export 2015-02-18 15:45:36 -05:00			`capturefile = logic-1`
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00			`unitsize = 1`
			`total probes = {}`
dump/sigrok: fix against real dumps, now able to import and export 2015-02-18 15:45:36 -05:00			`samplerate = {} KHz`
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00			`""".format(`
			`len(self.vars),`
dump/sigrok: fix against real dumps, now able to import and export 2015-02-18 15:45:36 -05:00			`self.samplerate//1000,`
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00			`)`
			`for i, var in enumerate(self.vars):`
dump/sigrok: fix against real dumps, now able to import and export 2015-02-18 15:45:36 -05:00			`r += "probe{} = {}\n".format(i+1, var.name)`
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00			`f.write(r)`
			`f.close()`

dump/sigrok: fix against real dumps, now able to import and export 2015-02-18 15:45:36 -05:00			`def write_data(self):`
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00			`# XXX are probes limited to 1 bit?`
			`data_bits = math.ceil(len(self.vars)/8)*8`
			`data_len = 0`
			`for var in self.vars:`
			`data_len = max(data_len, len(var))`
			`datas = []`
			`for i in range(data_len):`
			`data = 0`
			`for j, var in enumerate(reversed(self.vars)):`
			`data = data << 1`
			`try:`
			`data \|= var.values[i] %2`
			`except:`
			`pass`
			`datas.append(data)`
dump/sigrok: fix against real dumps, now able to import and export 2015-02-18 15:45:36 -05:00			`f = open("logic-1", "wb")`
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00			`for data in datas:`
			`f.write(data.to_bytes(data_bits//8, "big"))`
			`f.close()`

			`def zip(self, name):`
			`f = zipfile.ZipFile(name + ".sr", "w")`
			`os.chdir(name)`
			`f.write("version")`
			`f.write("metadata")`
dump/sigrok: fix against real dumps, now able to import and export 2015-02-18 15:45:36 -05:00			`f.write("logic-1")`
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00			`os.chdir("..")`
			`f.close()`

			`def write(self, filename):`
			`name, ext = os.path.splitext(filename)`
			`if os.path.exists(name):`
			`shutil.rmtree(name)`
			`os.makedirs(name)`
			`os.chdir(name)`
			`self.write_version()`
			`self.write_metadata(name)`
dump/sigrok: fix against real dumps, now able to import and export 2015-02-18 15:45:36 -05:00			`self.write_data()`
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00			`os.chdir("..")`
			`self.zip(name)`
			`shutil.rmtree(name)`

			`def unzip(self, filename, name):`
			`f = open(filename, "rb")`
			`z = zipfile.ZipFile(f)`
			`if os.path.exists(name):`
			`shutil.rmtree(name)`
			`os.makedirs(name)`
			`for file in z.namelist():`
			`z.extract(file, name)`
			`f.close()`

			`def read_metadata(self):`
			`probes = OrderedDict()`
			`f = open("metadata", "r")`
			`for l in f:`
			`m = re.search("probe([0-9]+) = (\w+)", l, re.I)`
			`if m is not None:`
			`index = int(m.group(1))`
			`name = m.group(2)`
			`probes[name] = index`
dump/sigrok: fix against real dumps, now able to import and export 2015-02-18 15:45:36 -05:00			`m = re.search("samplerate = ([0-9]+) kHz", l, re.I)`
			`if m is not None:`
			`self.samplerate = int(m.group(1))*1000`
			`m = re.search("samplerate = ([0-9]+) mHz", l, re.I)`
			`if m is not None:`
			`self.samplerate = int(m.group(1))*1000000`
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00			`f.close()`
			`return probes`

dump/sigrok: fix against real dumps, now able to import and export 2015-02-18 15:45:36 -05:00			`def read_data(self, name, nprobes):`
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00			`datas = []`
dump/sigrok: fix against real dumps, now able to import and export 2015-02-18 15:45:36 -05:00			`f = open("logic-1", "rb")`
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00			`while True:`
dump/sigrok: fix against real dumps, now able to import and export 2015-02-18 15:45:36 -05:00			`data = f.read(math.ceil(nprobes/8))`
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00			`if data == bytes('', "utf-8"):`
			`break`
			`data = int.from_bytes(data, "big")`
			`datas.append(data)`
			`f.close()`
			`return datas`

			`def read(self, filename):`
			`self.vars = []`
			`name, ext = os.path.splitext(filename)`
			`self.unzip(filename, name)`
			`os.chdir(name)`
			`probes = self.read_metadata()`
			`datas = self.read_data(name, len(probes.keys()))`
			`os.chdir("..")`
			`shutil.rmtree(name)`

			`for k, v in probes.items():`
			`probe_data = []`
			`for data in datas:`
dump/sigrok: fix against real dumps, now able to import and export 2015-02-18 15:45:36 -05:00			`probe_data.append((data >> (v-1)) & 0x1)`
split host files since we now have more drivers/dumps supported 2015-02-18 09:32:34 -05:00			`self.add(Var(k, 1, probe_data))`

			`if __name__ == '__main__':`
			`dump = SigrokDump()`
			`dump.add(Var("foo1", 1, [0,1,0,1,0,1]))`
			`dump.add(Var("foo2", 2, [1,0,1,0,1,0,1,0,1,0,1,0,1,0,1,0,1,0]))`
			`ramp = [i%128 for i in range(1024)]`
			`dump.add(Var("ramp", 16, ramp))`
			`dump.write("dump.sr")`
			`dump.read("dump.sr")`
			`dump.write("dump_copy.sr")`