Anders Blomdell
Clone of official tools
export/uvision/__init__.py
- Committer:
- The Other Jimmy
- Date:
- 2017-02-15
- Revision:
- 35:da9c89f8be7d
- Parent:
- 31:8ea194f6145b
- Child:
- 36:96847d42f010
File content as of revision 35:da9c89f8be7d:
import os
from os.path import sep, normpath, join, exists
import ntpath
import copy
from collections import namedtuple
import shutil
from subprocess import Popen, PIPE
import re
from tools.arm_pack_manager import Cache
from tools.targets import TARGET_MAP
from tools.export.exporters import Exporter
from tools.export.cmsis import DeviceCMSIS
cache_d = False
class DeviceUvision(DeviceCMSIS):
"""Uvision Device class, inherits CMSIS Device class
Encapsulates information necessary for uvision project targets"""
def __init__(self, target):
DeviceCMSIS.__init__(self, target)
dev_format = "$$Device:{0}${1}"
self.svd = ''
if self.debug_svd:
self.svd = dev_format.format(self.dname, self.debug_svd)
self.reg_file = dev_format.format(self.dname, self.compile_header)
self.debug_interface = self.uv_debug()
self.flash_dll = self.generate_flash_dll()
def uv_debug(self):
"""Return a namedtuple of information about uvision debug settings"""
UVDebug = namedtuple('UVDebug',['bin_loc','core_flag', 'key'])
# CortexMXn => pCMX
cpu = self.core.replace("Cortex-", "C")
cpu = cpu.replace("+", "")
cpu = cpu.replace("F", "")
cpu_flag = "p"+cpu
# Locations found in Keil_v5/TOOLS.INI
debuggers = {"st-link": ('STLink\\ST-LINKIII-KEIL_SWO.dll', 'ST-LINKIII-KEIL_SWO'),
"j-link":('Segger\\JL2CM3.dll', 'JL2CM3'),
"cmsis-dap":('BIN\\CMSIS_AGDI.dll', 'CMSIS_AGDI'),
"nulink":('NULink\\Nu_Link.dll','Nu_Link')}
res = debuggers[self.debug.lower()]
binary = res[0]
key = res[1]
return UVDebug(binary, cpu_flag, key)
def generate_flash_dll(self):
'''Flash DLL string from uvision
S = SW/JTAG Clock ID
C = CPU index in JTAG chain
P = Access Port
For the Options for Target -> Debug tab -> settings -> "Flash" tab in the dialog:
FD = RAM Start for Flash Functions
FC = RAM Size for Flash Functions
FN = Number of Flash types
FF = Flash File Name (without an extension)
FS = Start Address of the Flash Device
FL = Size of the Flash Device
FP = Full path to the Device algorithm (RTE)
Necessary to flash some targets. Info gathered from algorithms field of pdsc file.
'''
fl_count = 0
def get_mem_no_x(mem_str):
mem_reg = "\dx(\w+)"
m = re.search(mem_reg, mem_str)
return m.group(1) if m else None
RAMS = [(get_mem_no_x(info["start"]), get_mem_no_x(info["size"]))
for mem, info in self.target_info["memory"].items() if "RAM" in mem]
format_str = "UL2CM3(-S0 -C0 -P0 -FD{ramstart}"+" -FC{ramsize} "+"-FN{num_algos} {extra_flags})"
ramstart = ''
#Default according to Keil developer
ramsize = '1000'
if len(RAMS)>=1:
ramstart = RAMS[0][0]
extra_flags = []
for name, info in self.target_info["algorithm"].items():
if not name or not info:
continue
if int(info["default"])==0:
continue
name_reg = "\w*/([\w_]+)\.flm"
m = re.search(name_reg, name.lower())
fl_name = m.group(1) if m else None
name_flag = "-FF" + str(fl_count) + fl_name
start, size = get_mem_no_x(info["start"]), get_mem_no_x(info["size"])
rom_start_flag = "-FS"+str(fl_count)+str(start)
rom_size_flag = "-FL" + str(fl_count) + str(size)
if info["ramstart"] is not None and info["ramsize"] is not None:
ramstart = get_mem_no_x(info["ramstart"])
ramsize = get_mem_no_x(info["ramsize"])
path_flag = "-FP" + str(fl_count) + "($$Device:"+self.dname+"$"+name+")"
extra_flags.extend([name_flag, rom_start_flag, rom_size_flag, path_flag])
fl_count += 1
extra = " ".join(extra_flags)
return format_str.format(ramstart=ramstart,
ramsize=ramsize,
extra_flags=extra, num_algos=fl_count)
class Uvision(Exporter):
"""Keil Uvision class
This class encapsulates information to be contained in a Uvision
project file (.uvprojx).
The needed information can be viewed in uvision.tmpl
"""
NAME = 'uvision5'
TOOLCHAIN = 'ARM'
TARGETS = []
for target, obj in TARGET_MAP.iteritems():
if not ("ARM" in obj.supported_toolchains and hasattr(obj, "device_name")):
continue
if not DeviceCMSIS.check_supported(target):
continue
TARGETS.append(target)
#File associations within .uvprojx file
file_types = {'.cpp': 8, '.c': 1, '.s': 2,
'.obj': 3, '.o': 3, '.lib': 4,
'.ar': 4, '.h': 5, '.hpp': 5, '.sct': 4}
def uv_files(self, files):
"""An generator containing Uvision specific information about project files
Positional Arguments:
files - the location of source files
.uvprojx XML for project file:
<File>
<FileType>{{file.type}}</FileType>
<FileName>{{file.name}}</FileName>
<FilePath>{{file.loc}}</FilePath>
</File>
"""
for loc in files:
#Encapsulates the information necessary for template entry above
UVFile = namedtuple('UVFile', ['type','loc','name'])
_, ext = os.path.splitext(loc)
if ext.lower() in self.file_types:
type = self.file_types[ext.lower()]
name = ntpath.basename(normpath(loc))
yield UVFile(type, loc, name)
def format_flags(self):
"""Format toolchain flags for Uvision"""
flags = copy.deepcopy(self.flags)
# to be preprocessed with armcc
asm_flag_string = '--cpreproc --cpreproc_opts=-D__ASSERT_MSG,' + \
",".join(flags['asm_flags'])
flags['asm_flags'] = asm_flag_string
# All non-asm flags are in one template field
c_flags = list(set(flags['c_flags'] + flags['cxx_flags'] +flags['common_flags']))
# These flags are in template to be set by user i n IDE
template = ["--no_vla", "--cpp", "--c99"]
# Flag is invalid if set in template
# Optimizations are also set in the template
invalid_flag = lambda x: x in template or re.match("-O(\d|time)", x)
flags['c_flags'] = [flag for flag in c_flags if not invalid_flag(flag)]
flags['c_flags'] = " ".join(flags['c_flags'])
return flags
def format_src(self, srcs):
"""Make sources into the named tuple for use in the template"""
grouped = self.group_project_files(srcs)
for group, files in grouped.items():
grouped[group] = sorted(list(self.uv_files(files)),
key=lambda (_, __, name): name.lower())
return grouped
def generate(self):
"""Generate the .uvproj file"""
cache = Cache(True, False)
if cache_d:
cache.cache_descriptors()
srcs = self.resources.headers + self.resources.s_sources + \
self.resources.c_sources + self.resources.cpp_sources + \
self.resources.objects + self.resources.libraries
ctx = {
'name': self.project_name,
# project_files => dict of generators - file group to generator of
# UVFile tuples defined above
'project_files': sorted(list(self.format_src(srcs).iteritems()),
key=lambda (group, _): group.lower()),
'linker_script':self.resources.linker_script,
'include_paths': '; '.join(self.resources.inc_dirs).encode('utf-8'),
'device': DeviceUvision(self.target),
}
ctx['cputype'] = ctx['device'].core.rstrip("FD")
# Turn on FPU optimizations if the core has an FPU
ctx['fpu_setting'] = 1 if 'f' not in ctx['device'].core.lower() \
or 'd' in ctx['device'].core.lower() else 2
ctx.update(self.format_flags())
self.gen_file('uvision/uvision.tmpl', ctx, self.project_name+".uvprojx")
self.gen_file('uvision/uvision_debug.tmpl', ctx, self.project_name + ".uvoptx")
@staticmethod
def build(project_name, log_name='build_log.txt', cleanup=True):
""" Build Uvision project """
# > UV4 -r -j0 -o [log_name] [project_name].uvprojx
proj_file = project_name + ".uvprojx"
cmd = ['UV4', '-r', '-j0', '-o', log_name, proj_file]
# Build the project
p = Popen(cmd, stdout=PIPE, stderr=PIPE)
out, err = p.communicate()
ret_code = p.returncode
# Print the log file to stdout
with open(log_name, 'r') as f:
print f.read()
# Cleanup the exported and built files
if cleanup:
os.remove(log_name)
os.remove(project_name+".uvprojx")
os.remove(project_name+".uvoptx")
# legacy .build directory cleaned if exists
if exists('.build'):
shutil.rmtree('.build')
if exists('BUILD'):
shutil.rmtree('BUILD')
# Returns 0 upon success, 1 upon a warning, and neither upon an error
if ret_code != 0 and ret_code != 1:
# Seems like something went wrong.
return -1
else:
return 0