[deliverable/binutils-gdb.git] / gdb / reply_mig_hack.awk

# Reply server mig-output massager
#
#   Copyright (C) 1995-2017 Free Software Foundation, Inc.
#
#   Written by Miles Bader <miles@gnu.ai.mit.edu>
#
#   This program is free software; you can redistribute it and/or
#   modify it under the terms of the GNU General Public License as
#   published by the Free Software Foundation; either version 3, or (at
#   your option) any later version.
#
#   This program is distributed in the hope that it will be useful, but
#   WITHOUT ANY WARRANTY; without even the implied warranty of
#   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
#   General Public License for more details.
#
#   You should have received a copy of the GNU General Public License
#   along with this program.  If not, see <http://www.gnu.org/licenses/>.
#
# This awk script hacks the output of mig-generated reply server code
# so that it allows replies with just the error-code in them (as this is
# how mig returns errors).
#
# It is highly, highly, dependent on the exact format of mig output.  Ick.
#

BEGIN { parse_phase = 0; }

/^}/ { parse_phase = 0; }

parse_phase == 0 && /^mig_internal void _X[a-zA-Z0-9_]*_reply/ {
  # The start of a mig server routine.  Reset everything.  Note that we only
  # mess with rpcs that have the suffix `_reply'.
  num_args = 0;
  num_checks = 0;
  parse_phase = 1;
  print; next;
}

parse_phase == 1 && /^[\t ]*typedef struct/ {
  # The first structure in the server routine should describe the arguments
  parse_phase = 2;
  print; next;
}

parse_phase == 2 {
  # The message header field in the args structure, which skip.
  parse_phase = 3;
  print; next;
}

parse_phase == 3 && /} Request/ {
  # The args structure is over.
  if (num_args > 1)
    parse_phase = 5;
  else
    # There's no extra args that could screw up the normal mechanism for
    # error returns, so we don't have to insert any new code.
    parse_phase = 0;
  print; next;
}

parse_phase == 3 && num_args == 0 {
  # The type field for an argument.
  # This won't be accurate in case of unions being used in the Request struct,
  # but that doesn't matter, as we'll only be looking at arg_type_code_name[0],
  # which will not be a union type.
  arg_type_code_name[num_args] = $2;
  sub (/;$/, "", arg_type_code_name[num_args]) # Get rid of the semi-colon
  parse_phase = 4;
  print; next;
}

parse_phase == 3 && num_args == 1 {
  # We've got more than one argument (but we don't care what it is).
  num_args++;
  print; next;
}

parse_phase == 3 {
  # We've know everything we need; now just wait for the end of the Request
  # struct.
  print; next;
}

parse_phase == 4 {
  # The value field for an argument.
  # This won't be accurate in case of unions being used in the Request struct,
  # but that doesn't matter, as we'll only be looking at arg_name[0], which
  # will not be a union type.
  arg_name[num_args] = $2;
  sub (/;$/, "", arg_name[num_args]) # Get rid of the semi-colon
  num_args++;
  parse_phase = 3;
  print; next;
}

parse_phase == 5 && /^[ \t]*(auto |static )?const mach_msg_type_t/ {
  # The type check structure for an argument.
  arg_check_name[num_checks] = $(NF - 2);
  num_checks++;
  print; next;
}

parse_phase == 5 && /^[ \t]*mig_external kern_return_t/ {
  # The declaration of the user server function for this rpc.
  user_function_name = $3;
  print; next;
}

parse_phase == 5 && /^#if[ \t]TypeCheck/ {
  # Keep going if we have not yet collected the type check structures.
  if (num_checks == 0)
    {
      print; next;
    }

  # The first args type checking statement; we need to insert our chunk of
  # code that bypasses all the type checks if this is an error return, after
  # which we're done until we get to the next function.  Handily, the size
  # of mig's Reply structure is also the size of the alternate Request 
  # structure that we want to check for.
  print "\tif (In0P->Head.msgh_size == sizeof (Reply)";
  print "\t    && ! (In0P->Head.msgh_bits & MACH_MSGH_BITS_COMPLEX)";
  print "\t    && ! BAD_TYPECHECK(&In0P->" arg_type_code_name[0] ", &" arg_check_name[0] ")";
  print "\t    && In0P->" arg_name[0] " != 0)";
  print "\t  /* Error return, only the error code argument is passed.  */";
  print "\t  {";
  # Force the function user_function_name into a type that only takes the first
  # two arguments.
  # This is possibly bogus, but easier than supplying bogus values for all
  # the other args (we can't just pass 0 for them, as they might not be scalar).
  print "\t    OutP->RetCode = (*(kern_return_t (*)(mach_port_t, kern_return_t)) " user_function_name ") (In0P->Head.msgh_request_port, In0P->" arg_name[0] ");";
  print "\t    return;";
  print "\t  }";
  print "";
  parse_phase = 0;
  print; next;
}

{ print; }
Commit	Line	Data
c906108c SS	1	# Reply server mig-output massager
c906108c SS	2	#
61baf725	3	# Copyright (C) 1995-2017 Free Software Foundation, Inc.
c906108c SS	4	#
	5	# Written by Miles Bader <miles@gnu.ai.mit.edu>
	6	#
	7	# This program is free software; you can redistribute it and/or
	8	# modify it under the terms of the GNU General Public License as
5b1ba0e5	9	# published by the Free Software Foundation; either version 3, or (at
c906108c SS	10	# your option) any later version.
	11	#
	12	# This program is distributed in the hope that it will be useful, but
	13	# WITHOUT ANY WARRANTY; without even the implied warranty of
	14	# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	15	# General Public License for more details.
	16	#
	17	# You should have received a copy of the GNU General Public License
5b1ba0e5	18	# along with this program. If not, see <http://www.gnu.org/licenses/>.
c906108c SS	19	#
	20	# This awk script hacks the output of mig-generated reply server code
	21	# so that it allows replies with just the error-code in them (as this is
	22	# how mig returns errors).
	23	#
	24	# It is highly, highly, dependent on the exact format of mig output. Ick.
	25	#
	26
	27	BEGIN { parse_phase = 0; }
	28
	29	/^}/ { parse_phase = 0; }
	30
	31	parse_phase == 0 && /^mig_internal void _X[a-zA-Z0-9_]*_reply/ {
	32	# The start of a mig server routine. Reset everything. Note that we only
	33	# mess with rpcs that have the suffix `_reply'.
	34	num_args = 0;
	35	num_checks = 0;
	36	parse_phase = 1;
	37	print; next;
	38	}
	39
	40	parse_phase == 1 && /^[\t ]*typedef struct/ {
	41	# The first structure in the server routine should describe the arguments
	42	parse_phase = 2;
	43	print; next;
	44	}
	45
	46	parse_phase == 2 {
	47	# The message header field in the args structure, which skip.
	48	parse_phase = 3;
	49	print; next;
	50	}
	51
110f9112	52	parse_phase == 3 && /} Request/ {
c906108c SS	53	# The args structure is over.
	54	if (num_args > 1)
	55	parse_phase = 5;
	56	else
	57	# There's no extra args that could screw up the normal mechanism for
	58	# error returns, so we don't have to insert any new code.
	59	parse_phase = 0;
	60	print; next;
	61	}
	62
d214e5e7	63	parse_phase == 3 && num_args == 0 {
c906108c	64	# The type field for an argument.
110f9112 TS	65	# This won't be accurate in case of unions being used in the Request struct,
	66	# but that doesn't matter, as we'll only be looking at arg_type_code_name[0],
	67	# which will not be a union type.
c906108c SS	68	arg_type_code_name[num_args] = $2;
	69	sub (/;$/, "", arg_type_code_name[num_args]) # Get rid of the semi-colon
	70	parse_phase = 4;
	71	print; next;
	72	}
	73
d214e5e7 TS	74	parse_phase == 3 && num_args == 1 {
	75	# We've got more than one argument (but we don't care what it is).
	76	num_args++;
	77	print; next;
	78	}
	79
	80	parse_phase == 3 {
	81	# We've know everything we need; now just wait for the end of the Request
	82	# struct.
	83	print; next;
	84	}
	85
c906108c SS	86	parse_phase == 4 {
c906108c SS	87	# The value field for an argument.
110f9112 TS	88	# This won't be accurate in case of unions being used in the Request struct,
	89	# but that doesn't matter, as we'll only be looking at arg_name[0], which
	90	# will not be a union type.
c906108c SS	91	arg_name[num_args] = $2;
c906108c SS	92	sub (/;$/, "", arg_name[num_args]) # Get rid of the semi-colon
c906108c SS	93	num_args++;
	94	parse_phase = 3;
	95	print; next;
	96	}
	97
5eddd578	98	parse_phase == 5 && /^[ \t]*(auto \|static )?const mach_msg_type_t/ {
c906108c	99	# The type check structure for an argument.
bae8023e	100	arg_check_name[num_checks] = $(NF - 2);
c906108c SS	101	num_checks++;
	102	print; next;
	103	}
	104
	105	parse_phase == 5 && /^[ \t]*mig_external kern_return_t/ {
	106	# The declaration of the user server function for this rpc.
	107	user_function_name = $3;
	108	print; next;
	109	}
	110
	111	parse_phase == 5 && /^#if[ \t]TypeCheck/ {
d47642c9 TS	112	# Keep going if we have not yet collected the type check structures.
	113	if (num_checks == 0)
	114	{
	115	print; next;
	116	}
	117
c906108c SS	118	# The first args type checking statement; we need to insert our chunk of
	119	# code that bypasses all the type checks if this is an error return, after
	120	# which we're done until we get to the next function. Handily, the size
	121	# of mig's Reply structure is also the size of the alternate Request
	122	# structure that we want to check for.
	123	print "\tif (In0P->Head.msgh_size == sizeof (Reply)";
	124	print "\t && ! (In0P->Head.msgh_bits & MACH_MSGH_BITS_COMPLEX)";
20249808	125	print "\t && ! BAD_TYPECHECK(&In0P->" arg_type_code_name[0] ", &" arg_check_name[0] ")";
c906108c SS	126	print "\t && In0P->" arg_name[0] " != 0)";
	127	print "\t /* Error return, only the error code argument is passed. */";
	128	print "\t {";
d214e5e7 TS	129	# Force the function user_function_name into a type that only takes the first
d214e5e7 TS	130	# two arguments.
c906108c SS	131	# This is possibly bogus, but easier than supplying bogus values for all
c906108c SS	132	# the other args (we can't just pass 0 for them, as they might not be scalar).
d214e5e7	133	print "\t OutP->RetCode = ((kern_return_t ()(mach_port_t, kern_return_t)) " user_function_name ") (In0P->Head.msgh_request_port, In0P->" arg_name[0] ");";
c906108c SS	134	print "\t return;";
	135	print "\t }";
	136	print "";
	137	parse_phase = 0;
	138	print; next;
	139	}
	140
	141	{ print; }