# The MIT License (MIT)
#
-# Copyright (c) 2014 Philippe Proulx <philippe.proulx@efficios.com>
+# Copyright (c) 2014-2020 Philippe Proulx <pproulx@efficios.com>
#
-# Permission is hereby granted, free of charge, to any person obtaining a copy
-# of this software and associated documentation files (the "Software"), to deal
-# in the Software without restriction, including without limitation the rights
-# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-# copies of the Software, and to permit persons to whom the Software is
-# furnished to do so, subject to the following conditions:
+# Permission is hereby granted, free of charge, to any person obtaining
+# a copy of this software and associated documentation files (the
+# "Software"), to deal in the Software without restriction, including
+# without limitation the rights to use, copy, modify, merge, publish,
+# distribute, sublicense, and/or sell copies of the Software, and to
+# permit persons to whom the Software is furnished to do so, subject to
+# the following conditions:
#
-# The above copyright notice and this permission notice shall be included in
-# all copies or substantial portions of the Software.
+# The above copyright notice and this permission notice shall be
+# included in all copies or substantial portions of the Software.
#
-# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
-# THE SOFTWARE.
-from termcolor import cprint, colored
-import pytsdl.parser
-import pytsdl.tsdl
-import collections
+# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
+# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
+# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
+# IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
+# CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
+# TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
+# SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
+
+import pkg_resources
+import termcolor
import argparse
+import os.path
+import barectf
+import barectf.config_parse_common as barectf_config_parse_common
import sys
import os
-import re
-def _perror(msg, exit_code=1):
- cprint('Error: {}'.format(msg), 'red', attrs=['bold'], file=sys.stderr)
- sys.exit(exit_code)
+# Colors and prints the error message `msg` and exits with status code
+# 1.
+def _print_error(msg):
+ termcolor.cprint('Error: ', 'red', end='', file=sys.stderr)
+ termcolor.cprint(msg, 'red', attrs=['bold'], file=sys.stderr)
+ sys.exit(1)
-def _pinfo(msg):
- cprint(':: {}'.format(msg), 'blue', attrs=['bold'], file=sys.stderr)
+# Pretty-prints the barectf configuration error `exc` and exits with
+# status code 1.
+def _print_config_error(exc):
+ # reverse: most precise message comes last
+ for ctx in reversed(exc.context):
+ msg = ''
+ if ctx.message is not None:
+ msg = f' {ctx.message}'
-def _parse_args():
- ap = argparse.ArgumentParser()
-
- ap.add_argument('-O', '--output', metavar='OUTPUT', action='store',
- default=os.getcwd(),
- help='output directory of C files')
- ap.add_argument('-p', '--prefix', metavar='PREFIX', action='store',
- default='barectf',
- help='custom prefix for C function and structure names')
- ap.add_argument('-s', '--static-inline', action='store_true',
- help='generate static inline C functions')
- ap.add_argument('-c', '--manual-clock', action='store_true',
- help='do not use a clock callback: pass clock value to tracing functions')
- ap.add_argument('metadata', metavar='METADATA', action='store',
- help='CTF metadata input file')
-
- # parse args
- args = ap.parse_args()
-
- # validate output directory
- if not os.path.isdir(args.output):
- _perror('"{}" is not an existing directory'.format(args.output))
-
- # validate prefix
- if not re.match(r'^[a-zA-Z_][a-zA-Z0-9_]*$', args.prefix):
- _perror('"{}" is not a valid C identifier'.format(args.prefix))
-
- # validate that metadata file exists
- if not os.path.isfile(args.metadata):
- _perror('"{}" is not an existing file'.format(args.metadata))
-
- return args
-
-
-class _CBlock(list):
- pass
-
-
-class _CLine(str):
- pass
-
-
-class BarectfCodeGenerator:
- _CTX_AT = 'ctx->at'
- _CTX_BUF = 'ctx->buf'
- _CTX_BUF_SIZE = 'ctx->buf_size'
- _CTX_BUF_AT = '{}[{} >> 3]'.format(_CTX_BUF, _CTX_AT)
- _CTX_BUF_AT_ADDR = '&{}'.format(_CTX_BUF_AT)
-
- _bo_suffixes_map = {
- pytsdl.tsdl.ByteOrder.BE: 'be',
- pytsdl.tsdl.ByteOrder.LE: 'le',
- }
-
- _tsdl_type_names_map = {
- pytsdl.tsdl.Integer: 'integer',
- pytsdl.tsdl.FloatingPoint: 'floating point',
- pytsdl.tsdl.Enum: 'enumeration',
- pytsdl.tsdl.String: 'string',
- pytsdl.tsdl.Array: 'static array',
- pytsdl.tsdl.Sequence: 'dynamic array',
- pytsdl.tsdl.Struct: 'structure',
- }
-
- def __init__(self):
- self._parser = pytsdl.parser.Parser()
- self._obj_size_cb = {
- pytsdl.tsdl.Struct: self._get_struct_size,
- pytsdl.tsdl.Integer: self._get_integer_size,
- pytsdl.tsdl.Enum: self._get_enum_size,
- pytsdl.tsdl.FloatingPoint: self._get_floating_point_size,
- pytsdl.tsdl.Array: self._get_array_size,
- }
- self._obj_alignment_cb = {
- pytsdl.tsdl.Struct: self._get_struct_alignment,
- pytsdl.tsdl.Integer: self._get_integer_alignment,
- pytsdl.tsdl.Enum: self._get_enum_alignment,
- pytsdl.tsdl.FloatingPoint: self._get_floating_point_alignment,
- pytsdl.tsdl.Array: self._get_array_alignment,
- pytsdl.tsdl.Sequence: self._get_sequence_alignment,
- pytsdl.tsdl.String: self._get_string_alignment,
- }
- self._obj_param_ctype_cb = {
- pytsdl.tsdl.Struct: lambda obj: 'const void*',
- pytsdl.tsdl.Integer: self._get_integer_param_ctype,
- pytsdl.tsdl.Enum: self._get_enum_param_ctype,
- pytsdl.tsdl.FloatingPoint: self._get_floating_point_param_ctype,
- pytsdl.tsdl.Array: lambda obj: 'const void*',
- pytsdl.tsdl.Sequence: lambda obj: 'const void*',
- pytsdl.tsdl.String: lambda obj: 'const char*',
- }
- self._write_field_obj_cb = {
- pytsdl.tsdl.Struct: self._write_field_struct,
- pytsdl.tsdl.Integer: self._write_field_integer,
- pytsdl.tsdl.Enum: self._write_field_enum,
- pytsdl.tsdl.FloatingPoint: self._write_field_floating_point,
- pytsdl.tsdl.Array: self._write_field_array,
- pytsdl.tsdl.Sequence: self._write_field_sequence,
- pytsdl.tsdl.String: self._write_field_string,
- }
-
- # TODO: prettify this function
- def _validate_struct(self, struct):
- # just in case we call this with the wrong type
- if type(struct) is not pytsdl.tsdl.Struct:
- raise RuntimeError('expecting a struct')
-
- # make sure inner structures are at least byte-aligned
- if self._get_obj_alignment(struct) < 8:
- raise RuntimeError('inner struct must be at least byte-aligned')
-
- # check each field
- for name, ftype in struct.fields.items():
- if type(ftype) is pytsdl.tsdl.Sequence:
- raise RuntimeError('field "{}" is a dynamic array (not allowed here)'.format(name))
- elif type(ftype) is pytsdl.tsdl.Array:
- # we need to check every element until we find a terminal one
- element = ftype.element
-
- while True:
- if type(element) is pytsdl.tsdl.Sequence:
- raise RuntimeError('field "{}" contains a dynamic array (not allowed here)'.format(name))
- elif type(element) is pytsdl.tsdl.Variant:
- raise RuntimeError('field "{}" contains a variant (unsupported)'.format(name))
- elif type(element) is pytsdl.tsdl.String:
- raise RuntimeError('field "{}" contains a string (not allowed here)'.format(name))
- elif type(element) is pytsdl.tsdl.Struct:
- _validate_struct(element)
- elif type(element) is pytsdl.tsdl.Integer:
- if self._get_obj_size(element) > 64:
- raise RuntimeError('integer field "{}" larger than 64-bit'.format(name))
- elif type(element) is pytsdl.tsdl.FloatingPoint:
- if self._get_obj_size(element) > 64:
- raise RuntimeError('floating point field "{}" larger than 64-bit'.format(name))
- elif type(element) is pytsdl.tsdl.Enum:
- if self._get_obj_size(element) > 64:
- raise RuntimeError('enum field "{}" larger than 64-bit'.format(name))
-
- if type(element) is pytsdl.tsdl.Array:
- # still an array, continue
- element = element.element
- else:
- # found the terminal element
- break
- elif type(ftype) is pytsdl.tsdl.Variant:
- raise RuntimeError('field "{}" is a variant (unsupported)'.format(name))
- elif type(ftype) is pytsdl.tsdl.String:
- raise RuntimeError('field "{}" is a string (not allowed here)'.format(name))
- elif type(ftype) is pytsdl.tsdl.Struct:
- _validate_struct(ftype)
- elif type(ftype) is pytsdl.tsdl.Integer:
- if self._get_obj_size(ftype) > 64:
- raise RuntimeError('integer field "{}" larger than 64-bit'.format(name))
- elif type(ftype) is pytsdl.tsdl.FloatingPoint:
- if self._get_obj_size(ftype) > 64:
- raise RuntimeError('floating point field "{}" larger than 64-bit'.format(name))
- elif type(ftype) is pytsdl.tsdl.Enum:
- if self._get_obj_size(ftype) > 64:
- raise RuntimeError('enum field "{}" larger than 64-bit'.format(name))
-
- def _validate_context_field(self, struct):
- if type(struct) is not pytsdl.tsdl.Struct:
- raise RuntimeError('expecting a struct')
-
- for name, ftype in struct.fields.items():
- if type(ftype) is pytsdl.tsdl.Variant:
- raise RuntimeError('field "{}" is a variant (unsupported)'.format(name))
- elif type(ftype) is pytsdl.tsdl.Struct:
- # validate inner structure against barectf constraints
- self._validate_struct(ftype)
-
- def _validate_integer(self, integer, size=None, align=None,
- signed=None):
- if type(integer) is not pytsdl.tsdl.Integer:
- raise RuntimeError('expected integer')
-
- if size is not None:
- if integer.size != size:
- raise RuntimeError('expected {}-bit integer'.format(size))
-
- if align is not None:
- if integer.align != align:
- raise RuntimeError('expected integer with {}-bit alignment'.format(align))
-
- if signed is not None:
- if integer.signed != signed:
- raise RuntimeError('expected {} integer'.format('signed' if signed else 'unsigned'))
-
- def _validate_packet_header(self, packet_header):
- try:
- self._validate_struct(packet_header)
- except RuntimeError as e:
- _perror('packet header: {}'.format(e))
-
- # magic must be the first field
- if 'magic' in packet_header.fields:
- if list(packet_header.fields.keys())[0] != 'magic':
- _perror('packet header: "magic" must be the first field')
- else:
- _perror('packet header: missing "magic" field')
-
- # magic must be a 32-bit unsigned integer, 32-bit aligned
- try:
- self._validate_integer(packet_header['magic'], 32, 32, False)
- except RuntimeError as e:
- _perror('packet header: "magic": {}'.format(e))
-
- # mandatory stream_id
- if 'stream_id' not in packet_header.fields:
- _perror('packet header: missing "stream_id" field')
-
- # stream_id must be an unsigned integer
- try:
- self._validate_integer(packet_header['stream_id'], signed=False)
- except RuntimeError as e:
- _perror('packet header: "stream_id": {}'.format(e))
-
- def _dot_name_to_str(self, name):
- return '.'.join(name)
-
-
- def _compare_integers(self, int1, int2):
- if type(int1) is not pytsdl.tsdl.Integer:
- return False
-
- if type(int2) is not pytsdl.tsdl.Integer:
- return False
-
- size = int1.size == int2.size
- align = int1.align == int2.align
- cmap = int1.map == int2.map
- base = int1.base == int2.base
- encoding = int1.encoding == int2.encoding
- signed = int1.signed == int2.signed
- comps = (size, align, cmap, base, encoding, signed)
-
- # True means 1 for sum()
- return sum(comps) == len(comps)
-
- def _validate_packet_context(self, stream):
- packet_context = stream.packet_context
- sid = stream.id
-
- try:
- self._validate_struct(packet_context)
- except RuntimeError as e:
- _perror('stream {}: packet context: {}'.format(sid, e))
-
- fields = packet_context.fields
-
- # if timestamp_begin exists, timestamp_end must exist
- if 'timestamp_begin' in fields or 'timestamp_end' in fields:
- if 'timestamp_begin' not in fields or 'timestamp_end' not in fields:
- _perror('stream {}: packet context: "timestamp_begin" must exist if "timestamp_end" exists'.format(sid))
- else:
- # timestamp_begin and timestamp_end must have the same integer
- # as the event header's timestamp field (should exist by now)
- timestamp = stream.event_header['timestamp']
-
- if not self._compare_integers(fields['timestamp_begin'], timestamp):
- _perror('stream {}: packet context: "timestamp_begin": integer type different from event header\'s "timestamp" field'.format(sid))
-
- if not self._compare_integers(fields['timestamp_end'], timestamp):
- _perror('stream {}: packet context: "timestamp_end": integer type different from event header\'s "timestamp" field'.format(sid))
-
- # content_size must exist and be an unsigned integer
- if 'content_size' not in fields:
- _perror('stream {}: packet context: missing "content_size" field'.format(sid))
-
- try:
- self._validate_integer(fields['content_size'], 32, 32, False)
- except:
- try:
- self._validate_integer(fields['content_size'], 64, 64, False)
- except:
- _perror('stream {}: packet context: "content_size": expecting unsigned 32-bit/64-bit integer'.format(sid))
-
- # packet_size must exist and be an unsigned integer
- if 'packet_size' not in fields:
- _perror('stream {}: packet context: missing "packet_size" field'.format(sid))
-
- try:
- self._validate_integer(fields['packet_size'], 32, 32, False)
- except:
- try:
- self._validate_integer(fields['packet_size'], 64, 64, False)
- except:
- _perror('stream {}: packet context: "packet_size": expecting unsigned 32-bit/64-bit integer'.format(sid))
-
- # if cpu_id exists, must be an unsigned integer
- if 'cpu_id' in fields:
- try:
- self._validate_integer(fields['cpu_id'], signed=False)
- except RuntimeError as e:
- _perror('stream {}: packet context: "cpu_id": {}'.format(sid, e))
-
- def _validate_event_header(self, stream):
- event_header = stream.event_header
- sid = stream.id
-
- try:
- self._validate_struct(event_header)
- except RuntimeError as e:
- _perror('stream {}: event header: {}'.format(sid, e))
-
- fields = event_header.fields
-
- # id must exist and be an unsigned integer
- if 'id' not in fields:
- _perror('stream {}: event header: missing "id" field'.format(sid))
-
- try:
- self._validate_integer(fields['id'], signed=False)
- except RuntimeError as e:
- _perror('stream {}: "id": {}'.format(sid, format(e)))
-
-
- # timestamp must exist, be an unsigned integer and be mapped to a valid clock
- if 'timestamp' not in fields:
- _perror('stream {}: event header: missing "timestamp" field'.format(sid))
-
- try:
- self._validate_integer(fields['timestamp'], signed=False)
- except RuntimeError as e:
- _perror('stream {}: "timestamp": {}'.format(sid, format(e)))
-
- def _validate_stream_event_context(self, stream):
- stream_event_context = stream.event_context
- sid = stream.id
-
- if stream_event_context is None:
- return
-
- try:
- self._validate_context_field(stream_event_context)
- except RuntimeError as e:
- _perror('stream {}: event context: {}'.format(sid, e))
-
- def _validate_all_scopes(self):
- # packet header
- self._validate_packet_header(self._doc.trace.packet_header)
-
- # stream stuff
- for stream_id, stream in self._doc.streams.items():
- self._validate_event_header(stream)
- self._validate_packet_context(stream)
- self._validate_stream_event_context(stream)
-
- def _validate_metadata(self):
- self._validate_all_scopes()
-
- # 3, 4 -> 4
- # 4, 4 -> 4
- # 5, 4 -> 8
- # 6, 4 -> 8
- # 7, 4 -> 8
- # 8, 4 -> 8
- # 9, 4 -> 12
- def _get_alignment(self, at, align):
- return (at + align - 1) & -align
-
- # this converts a tree of offset variables:
- #
- # field
- # a -> 0
- # b -> 8
- # other_struct
- # field -> 16
- # yeah -> 20
- # c -> 32
- # len -> 36
- #
- # to a flat dict:
- #
- # field_a -> 0
- # field_b -> 8
- # field_other_struct_field -> 16
- # field_other_struct_yeah -> 20
- # field_c -> 32
- # len -> 36
- def _offvars_tree_to_vars(self, offvars_tree, prefix=None,
- off_vars=collections.OrderedDict()):
- for name, offset in offvars_tree.items():
- if prefix is not None:
- varname = '{}_{}'.format(prefix, name)
- else:
- varname = name
-
- if isinstance(offset, dict):
- self._offvars_tree_to_vars(offset, varname, off_vars)
- else:
- off_vars[varname] = offset
-
- return off_vars
-
- # returns the size of a struct with _static size_
- def _get_struct_size(self, struct,
- offvars_tree=collections.OrderedDict(),
- base_offset=0):
- offset = 0
-
- for fname, ftype in struct.fields.items():
- field_alignment = self._get_obj_alignment(ftype)
- offset = self._get_alignment(offset, field_alignment)
-
- if type(ftype) is pytsdl.tsdl.Struct:
- offvars_tree[fname] = collections.OrderedDict()
- sz = self._get_struct_size(ftype, offvars_tree[fname],
- base_offset + offset)
- else:
- # only integers may act as sequence lengths
- if type(ftype) is pytsdl.tsdl.Integer:
- offvars_tree[fname] = base_offset + offset
-
- sz = self._get_obj_size(ftype)
-
- offset += sz
-
- return offset
-
- def _get_array_size(self, array):
- element = array.element
-
- # effective size of one element includes its alignment after its size
- size = self._get_obj_size(element)
- align = self._get_obj_alignment(element)
-
- return self._get_alignment(size, align) * array.length
-
- def _get_enum_size(self, enum):
- return self._get_obj_size(enum.integer)
-
- def _get_floating_point_size(self, floating_point):
- return floating_point.exp_dig + floating_point.mant_dig
-
- def _get_integer_size(self, integer):
- return integer.size
-
- def _get_obj_size(self, obj):
- return self._obj_size_cb[type(obj)](obj)
-
- def _get_struct_alignment(self, struct):
- if struct.align is not None:
- return struct.align
-
- cur_align = 1
-
- for fname, ftype in struct.fields.items():
- cur_align = max(self._get_obj_alignment(ftype), cur_align)
-
- return cur_align
-
- def _get_integer_alignment(self, integer):
- return integer.align
-
- def _get_floating_point_alignment(self, floating_point):
- return floating_point.align
-
- def _get_enum_alignment(self, enum):
- return self._get_obj_alignment(enum.integer)
-
- def _get_string_alignment(self, string):
- return 8
-
- def _get_array_alignment(self, array):
- return self._get_obj_alignment(array.element)
-
- def _get_sequence_alignment(self, sequence):
- return self._get_obj_alignment(sequence.element)
-
- def _get_obj_alignment(self, obj):
- return self._obj_alignment_cb[type(obj)](obj)
-
- def _name_to_param_name(self, prefix, name):
- return 'param_{}_{}'.format(prefix, name)
-
- def _ev_f_name_to_param_name(self, name):
- return self._name_to_param_name('evf', name)
-
- def _ev_c_name_to_param_name(self, name):
- return self._name_to_param_name('evc', name)
-
- def _ev_sec_name_to_param_name(self, name):
- return self._name_to_param_name('evsec', name)
-
- def _ev_h_name_to_param_name(self, name):
- return self._name_to_param_name('evh', name)
-
- def _s_pc_name_to_param_name(self, name):
- return self._name_to_param_name('spc', name)
-
- def _s_ph_name_to_param_name(self, name):
- return self._name_to_param_name('sph', name)
-
- def _get_integer_param_ctype(self, integer):
- signed = 'u' if not integer.signed else ''
+ color = 'red'
+ termcolor.cprint(f'{ctx.name}', color, attrs=['bold'], file=sys.stderr, end='')
+ termcolor.cprint(':', color, file=sys.stderr, end='')
+ termcolor.cprint(msg, color, file=sys.stderr)
- if integer.size == 8:
- sz = '8'
- elif integer.size == 16:
- sz = '16'
- elif integer.size == 32:
- sz = '32'
- elif integer.size == 64:
- sz = '64'
- else:
- # if the integer is signed and of uncommon size, the sign bit is
- # at a custom position anyway so we use a 64-bit unsigned
- signed = 'u'
+ sys.exit(1)
- if integer.signed:
- sz = '64'
- else:
- if integer.size < 16:
- sz = '8'
- elif integer.size < 32:
- sz = '16'
- elif integer.size < 64:
- sz = '32'
- else:
- sz = '64'
- return '{}int{}_t'.format(signed, sz)
+# Pretty-prints the unknown exception `exc`.
+def _print_unknown_exc(exc):
+ import traceback
- def _get_enum_param_ctype(self, enum):
- return self._get_obj_param_ctype(enum.integer)
+ traceback.print_exc()
+ _print_error(f'Unknown exception: {exc}')
- def _get_floating_point_param_ctype(self, fp):
- if fp.exp_dig == 8 and fp.mant_dig == 24 and fp.align == 32:
- return 'float'
- elif fp.exp_dig == 11 and fp.mant_dig == 53 and fp.align == 64:
- return 'double'
- else:
- return 'uint64_t'
- def _get_obj_param_ctype(self, obj):
- return self._obj_param_ctype_cb[type(obj)](obj)
-
- def _get_chk_offset_v(self, size):
- fmt = '{}_CHK_OFFSET_V({}, {}, {});'
- ret = fmt.format(self._prefix.upper(), self._CTX_AT,
- self._CTX_BUF_SIZE, size)
-
- return ret
-
- def _get_chk_offset_v_cline(self, size):
- return _CLine(self._get_chk_offset_v(size))
-
- def _get_align_offset(self, align):
- fmt = '{}_ALIGN_OFFSET({}, {});'
- ret = fmt.format(self._prefix.upper(), self._CTX_AT, align)
-
- return ret
-
- def _get_align_offset_cline(self, size):
- return _CLine(self._get_align_offset(size))
-
- def _write_field_struct(self, fname, src_name, struct):
- size = self._get_struct_size(struct)
- size_bytes = self._get_alignment(size, 8) // 8
- dst = self._CTX_BUF_AT_ADDR
-
- return [
- # memcpy() is safe since barectf requires inner structures
- # to be byte-aligned
- self._get_chk_offset_v_cline(size),
- _CLine('memcpy({}, {}, {});'.format(dst, src_name, size_bytes)),
- _CLine('{} += {};'.format(self._CTX_AT, size)),
- ]
-
- def _write_field_integer(self, fname, src_name, integer):
- bo = self._bo_suffixes_map[integer.byte_order]
- ptr = self._CTX_BUF
- t = self._get_obj_param_ctype(integer)
- start = self._CTX_AT
- length = self._get_obj_size(integer)
- fmt = 'barectf_bitfield_write_{}({}, {}, {}, {}, {});'
-
- return [
- self._get_chk_offset_v_cline(length),
- _CLine(fmt.format(bo, ptr, t, start, length, src_name)),
- _CLine('{} += {};'.format(self._CTX_AT, length))
- ]
-
- def _write_field_enum(self, fname, src_name, enum):
- return self._write_field_obj(fname, src_name, enum.integer)
-
- def _write_field_floating_point(self, fname, src_name, floating_point):
- bo = self._bo_suffixes_map[floating_point.byte_order]
- ptr = self._CTX_BUF
- t = self._get_obj_param_ctype(floating_point)
- start = self._CTX_AT
- length = self._get_obj_size(floating_point)
- fmt = 'barectf_bitfield_write_{}({}, {}, {}, {}, {});'
-
- return [
- self._get_chk_offset_v_cline(length),
- _CLine(fmt.format(bo, ptr, t, start, length, src_name)),
- _CLine('{} += {};'.format(self._CTX_AT, length))
- ]
-
- def _write_field_array(self, fname, src_name, array):
- lines = []
-
- # array index variable declaration
- iv = 'ia_{}'.format(fname)
- lines.append(_CLine('uint32_t {};'.format(iv)))
-
- # for loop using array's static length
- line = 'for ({iv} = 0; {iv} < {l}; ++{iv}) {{'.format(iv=iv, l=array.length)
- lines.append(_CLine(line))
-
- # for loop statements
- for_block = _CBlock()
-
- # align bit index before writing to the buffer
- element_align = self._get_obj_alignment(array.element)
- cline = self._get_align_offset_cline(element_align)
- for_block.append(cline)
-
- # write element to the buffer
- for_block += self._write_field_obj(fname, src_name, array.element)
- lines.append(for_block)
-
- # for loop end
- lines.append(_CLine('}'))
-
- return lines
-
- def _write_field_sequence(self, fname, src_name, sequence):
- return [
- _CLine('would write sequence here;'),
- ]
-
- def _write_field_string(self, fname, src_name, string):
- lines = []
-
- # string index variable declaration
- iv = 'is_{}'.format(fname)
- lines.append(_CLine('uint32_t {};'.format(iv)))
-
- # for loop; loop until the end of the source string is reached
- fmt = "for ({iv} = 0; {src}[{iv}] != '\\0'; ++{iv}, {ctxat} += 8) {{"
- line = fmt.format(iv=iv, src=src_name, ctxat=self._CTX_AT)
- lines.append(_CLine(line))
-
- # for loop statements
- for_block = _CBlock()
-
- # check offset overflow
- for_block.append(self._get_chk_offset_v_cline(8))
-
- # write byte to the buffer
- fmt = '{dst} = {src}[{iv}];'
- line = fmt.format(dst=self._CTX_BUF_AT, iv=iv, src=src_name)
- for_block.append(_CLine(line))
-
- # append for loop
- lines.append(for_block)
- lines.append(_CLine('}'))
-
- # write NULL character to the buffer
- lines.append(_CLine("{} = '\\0';".format(self._CTX_BUF_AT)))
- lines.append(_CLine('{} += 8;'.format(self._CTX_AT)))
-
- return lines
-
- def _write_field_obj(self, fname, src_name, ftype):
- return self._write_field_obj_cb[type(ftype)](fname, src_name, ftype)
-
- def _get_offvar_name(self, name):
- return 'off_{}'.format(name)
-
- def _get_offvar_name_from_expr(self, expr):
- return self._get_offvar_name('_'.join(expr))
-
- def _field_to_cline(self, fname, ftype, scope_name, param_name_cb):
- lines = []
- pname = param_name_cb(fname)
- align = self._get_obj_alignment(ftype)
-
- # group comment
- fmt = '/* write {} field "{}" ({}) */'
- line = fmt.format(scope_name, fname,
- self._tsdl_type_names_map[type(ftype)])
- lines.append(_CLine(line))
-
- # align bit index before writing to the buffer
- cline = self._get_align_offset_cline(align)
- lines.append(cline)
-
- # write offset variables
- if type(ftype) is pytsdl.tsdl.Struct:
- offvars_tree = collections.OrderedDict()
- self._get_struct_size(ftype, offvars_tree)
- off_vars = self._offvars_tree_to_vars(offvars_tree)
-
- # as many offset as there are child fields because a future
- # sequence could refer to any of those fields
- for lname, offset in off_vars.items():
- print(fname, lname)
- offvar = self._get_offvar_name('_'.join([fname, lname]))
- fmt = 'uint32_t {} = {} + {};'
- line = fmt.format(offvar, self._CTX_AT, offset);
- lines.append(_CLine(line))
- elif type(ftype) is pytsdl.tsdl.Integer:
- # offset of this simple field is the current bit index
- offvar = self._get_offvar_name(fname)
- line = 'uint32_t {} = {};'.format(offvar, self._CTX_AT)
- lines.append(_CLine(line))
-
- lines += self._write_field_obj(fname, pname, ftype)
-
- return lines
-
- def _struct_to_clines(self, struct, scope_name, param_name_cb):
- line_groups = []
-
- for fname, ftype in struct.fields.items():
- lines = self._field_to_cline(fname, ftype, scope_name,
- param_name_cb)
- line_groups.append(lines)
-
- if not line_groups:
- return line_groups
-
- output_lines = line_groups[0]
-
- for lines in line_groups[1:]:
- output_lines.append('')
- output_lines += lines
-
- return output_lines
-
- def _cblock_to_source_lines(self, cblock, indent=1):
- src = []
- indentstr = '\t' * indent
-
- for line in cblock:
- if type(line) is _CBlock:
- src += self._cblock_to_source_lines(line, indent + 1)
- else:
- src.append(indentstr + line)
-
- return src
+def _parse_args():
+ ap = argparse.ArgumentParser()
- def _cblock_to_source(self, cblock, indent=1):
- lines = self._cblock_to_source_lines(cblock, indent)
+ ap.add_argument('-c', '--code-dir', metavar='DIR', action='store', default=os.getcwd(),
+ help='output directory of C source file')
+ ap.add_argument('--dump-config', action='store_true',
+ help='also dump the effective YAML configuration file used for generation')
+ ap.add_argument('-H', '--headers-dir', metavar='DIR', action='store', default=os.getcwd(),
+ help='output directory of C header files')
+ ap.add_argument('-I', '--include-dir', metavar='DIR', action='append', default=[],
+ help='add directory DIR to the list of directories to be searched for include files')
+ ap.add_argument('--ignore-include-not-found', action='store_true',
+ help='continue to process the configuration file when included files are not found')
+ ap.add_argument('-m', '--metadata-dir', metavar='DIR', action='store', default=os.getcwd(),
+ help='output directory of CTF metadata')
+ ap.add_argument('-p', '--prefix', metavar='PREFIX', action='store',
+ help='override configuration\'s prefixes')
+ ap.add_argument('-V', '--version', action='version',
+ version='%(prog)s {}'.format(barectf.__version__))
+ ap.add_argument('config', metavar='CONFIG', action='store',
+ help='barectf YAML configuration file')
- return '\n'.join(lines)
+ # parse args
+ args = ap.parse_args()
- def gen_barectf(self, metadata, output, prefix, static_inline,
- manual_clock):
- self._metadata = metadata
- self._output = output
- self._prefix = prefix
- self._static_inline = static_inline
- self._manual_clock = manual_clock
+ # validate output directories
+ for dir in [args.code_dir, args.headers_dir, args.metadata_dir] + args.include_dir:
+ if not os.path.isdir(dir):
+ _print_error(f'`{dir}` is not an existing directory')
+
+ # validate that configuration file exists
+ if not os.path.isfile(args.config):
+ _print_error(f'`{args.config}` is not an existing, regular file')
+
+ # Load configuration file to get its major version in order to
+ # append the correct implicit inclusion directory.
+ try:
+ with open(args.config) as f:
+ config_major_version = barectf.configuration_file_major_version(f)
+ except barectf._ConfigurationParseError as exc:
+ _print_config_error(exc)
+ except Exception as exc:
+ _print_unknown_exc(exc)
+
+ # append current working directory and implicit inclusion directory
+ args.include_dir += [
+ os.getcwd(),
+ pkg_resources.resource_filename(__name__, f'include/{config_major_version}')
+ ]
- # open CTF metadata file
- try:
- with open(metadata) as f:
- self._tsdl = f.read()
- except:
- _perror('cannot open/read CTF metadata file "{}"'.format(metadata))
-
- # parse CTF metadata
- try:
- self._doc = self._parser.parse(self._tsdl)
- except pytsdl.parser.ParseError as e:
- _perror('parse error: {}'.format(e))
-
- # validate CTF metadata against barectf constraints
- self._validate_metadata()
-
- clines = self._struct_to_clines(self._doc.streams[0].get_event(0).fields,
- 'stream event context',
- self._ev_f_name_to_param_name)
- source = self._cblock_to_source(_CBlock(clines))
+ return args
def run():
+ # parse arguments
args = _parse_args()
- generator = BarectfCodeGenerator()
- generator.gen_barectf(args.metadata, args.output, args.prefix,
- args.static_inline, args.manual_clock)
+
+ # create configuration
+ try:
+ with open(args.config) as f:
+ if args.dump_config:
+ # print effective configuration file
+ print(barectf.effective_configuration_file(f, args.include_dir,
+ args.ignore_include_not_found))
+
+ # barectf.configuration_from_file() reads the file again
+ # below: rewind.
+ f.seek(0)
+
+ config = barectf.configuration_from_file(f, args.include_dir,
+ args.ignore_include_not_found)
+ except barectf._ConfigurationParseError as exc:
+ _print_config_error(exc)
+ except Exception as exc:
+ _print_unknown_exc(exc)
+
+ if args.prefix:
+ # Override prefixes.
+ #
+ # For historical reasons, the `--prefix` option applies the
+ # barectf 2 configuration prefix rules. Therefore, get the
+ # equivalent barectf 3 prefixes first.
+ v3_prefixes = barectf_config_parse_common._v3_prefixes_from_v2_prefix(args.prefix)
+ cg_opts = config.options.code_generation_options
+ cg_opts = barectf.ConfigurationCodeGenerationOptions(v3_prefixes.identifier,
+ v3_prefixes.file_name,
+ cg_opts.default_stream_type,
+ cg_opts.header_options,
+ cg_opts.clock_type_c_types)
+ config = barectf.Configuration(config.trace, barectf.ConfigurationOptions(cg_opts))
+
+ # create a barectf code generator
+ code_gen = barectf.CodeGenerator(config)
+
+ def write_file(dir, file):
+ with open(os.path.join(dir, file.name), 'w') as f:
+ f.write(file.contents)
+
+ def write_files(dir, files):
+ for file in files:
+ write_file(dir, file)
+
+ try:
+ # generate and write metadata stream file
+ write_file(args.metadata_dir, code_gen.generate_metadata_stream())
+
+ # generate and write C header files
+ write_files(args.headers_dir, code_gen.generate_c_headers())
+
+ # generate and write C source files
+ write_files(args.code_dir, code_gen.generate_c_sources())
+ except Exception as exc:
+ # We know `config` is valid, therefore the code generator cannot
+ # fail for a reason known to barectf.
+ _print_unknown_exc(exc)