#
# %CopyrightBegin%
#
# Copyright Ericsson AB 2005-2016. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
# %CopyrightEnd%
#
############################################################################
# Help commands
#
define etp-help
help etp-help
end
document etp-help
%---------------------------------------------------------------------------
% etp-help
%
% Same as "help etp-help"
%
% Emulator Toolbox for Pathologists
% - GDB command toolbox for analyzing core dumps from the
% Erlang emulator (BEAM).
%
% Should work for 32-bit erts-5.2/R9B, ...
%
% The commands are prefixed with:
% etp: Acronym for erts-term-print
% etpf: Acronym for erts-term-print-flat
%
% User commands (these have help themselves):
%
% Most useful:
% etp, etpf
%
% Useful for doing step-by-step traversal of lists and tuples after
% calling the toplevel command etpf:
% etpf-cons, etpf-boxed,
%
% Special commands for not really terms:
% etp-mfa, etp-cp,
% etp-msgq, etpf-msgq,
% etp-stacktrace, etp-stackdump, etpf-stackdump, etp-dictdump
% etp-process-info, etp-process-memory-info
% etp-port-info, etp-port-state, etp-port-sched-flags
% etp-heapdump, etp-offheapdump, etpf-offheapdump,
% etp-search-heaps, etp-search-alloc,
% etp-ets-tables, etp-ets-tabledump
%
% Complex commands that use the Erlang support module.
% etp-overlapped-heaps, etp-chart, etp-chart-start, etp-chart-end
%
% System inspection
% etp-system-info, etp-schedulers, etp-process, etp-ports, etp-lc-dump,
% etp-migration-info, etp-processes-memory,
% etp-compile-info, etp-config-h-info
%
% Platform specific (when gdb fails you)
% etp-ppc-stacktrace
%
% Erlang support module handling commands:
% etp-run
%
% Parameter handling commands:
% etp-show, etp-set-max-depth, etp-set-max-string-length
%
% Other commands you may find in this toolbox are suffixed -1, -2, ...
% and are internal; not for the console user.
%
% The Erlang support module requires `erl' and `erlc' in the path.
% The compiled "erl_commands.beam" file is stored in the current
% working directory, so it is thereby in the search path of `erl'.
%
% These are just helpful commands when analyzing core dumps, but
% you will not get away without knowing the gory details of the
% tag bits. Do not forget about the e.g p, p/x, x and x/4x commands.
%
% Execution speed of user defined gdb commands is not lightning fast.
% It may well take half a minute to dump a complex term with the default
% max depth values on our old Sparc Ultra-10's.
%
% To use the Erlang support module, the environment variable ROOTDIR
% must be set to the toplevel installation directory of Erlang/OTP,
% so the etp-commands file becomes:
% $ROOTDIR/erts/etc/unix/etp-commands
% Also, erl and erlc must be in the path.
%---------------------------------------------------------------------------
end
############################################################################
# Toplevel commands
#
define etp
# Args: Eterm
#
# Reentrant
#
etp-1 ((Eterm)($arg0)) 0
printf ".\n"
end
document etp
%---------------------------------------------------------------------------
% etp Eterm
%
% Takes a toplevel Erlang term and prints the whole deep term
% very much as in Erlang itself. Up to a max depth. See etp-show.
%---------------------------------------------------------------------------
end
define etp-1
# Args: Eterm, int depth
#
# Reentrant
#
if (($arg0) & 0x3) == 1
# Cons pointer
if $etp_flat
printf "<etpf-cons %#x>", ($arg0)
else
etp-list-1 ($arg0) ($arg1)
end
else
if (($arg0) & 0x3) == 2
if $etp_flat
printf "<etpf-boxed %#x>", ($arg0)
else
etp-boxed-1 ($arg0) ($arg1)
end
else
if (($arg0) & 0x3) == 3
etp-immediate-1 ($arg0)
else
# (($arg0) & 0x3) == 0
if (($arg0) == etp_the_non_value)
printf "<the non-value>"
else
etp-cp-1 ($arg0)
end
end
end
end
end
define etpf
# Args: Eterm
#
# Non-reentrant
set $etp_flat = 1
etp-1 ((Eterm)($arg0))
set $etp_flat = 0
printf ".\n"
end
document etpf
%---------------------------------------------------------------------------
% etpf Eterm
%
% Takes a toplevel Erlang term and prints it is. If it is a deep term
% print which command to use to traverse down one level.
%---------------------------------------------------------------------------
end
############################################################################
# Commands for nested terms. Some are recursive.
#
define etp-list-1
# Args: Eterm cons_cell, int depth
#
# Reentrant
#
if (($arg0) & 0x3) != 0x1
printf "#NotCons<%#x>", ($arg0)
else
# Cons pointer
if $etp_chart
etp-chart-entry-1 ($arg0) ($arg1) 2
end
etp-list-printable-1 ($arg0) ($arg1)
if !$etp_list_printable
# Print normal list
printf "["
etp-list-2 ($arg0) (($arg1)+1)
end
end
end
define etp-list-printable-1
# Args: Eterm list, int depth
#
# Non-reentrant
#
# Returns: $etp_list_printable
#
if (($arg0) & 0x3) != 0x1
printf "#NotCons<%#x>", ($arg0)
else
# Loop to check if it is a printable string
set $etp_list_p = ($arg0)
set $etp_list_printable = ($etp_list_p != $etp_nil)
set $etp_list_i = 0
while ($etp_list_p != $etp_nil) && \
($etp_list_i < $etp_max_string_length) && \
$etp_list_printable
if ($etp_list_p & 0x3) == 0x1
# Cons pointer
set $etp_list_n = ((Eterm*)($etp_list_p & ~0x3))[0]
if ($etp_list_n & 0xF) == 0xF
etp-ct-printable-1 ($etp_list_n>>4)
if $etp_ct_printable
# Printable
set $etp_list_p = ((Eterm*)($etp_list_p & ~0x3))[1]
set $etp_list_i++
else
set $etp_list_printable = 0
end
else
set $etp_list_printable = 0
end
else
set $etp_list_printable = 0
end
end
#
if $etp_list_printable
# Print printable string
printf "\""
set $etp_list_p = ($arg0)
set $etp_list_i = 0
while $etp_list_p != $etp_nil
set $etp_list_n = ((Eterm*)($etp_list_p & ~0x3))[0]
etp-char-1 ($etp_list_n>>4) '"'
set $etp_list_p = ((Eterm*)($etp_list_p & ~0x3))[1]
set $etp_list_i++
if $etp_list_p == $etp_nil
printf "\""
else
if $etp_list_i >= $etp_max_string_length
set $etp_list_p = $etp_nil
printf "\"++[...]"
else
if $etp_chart
etp-chart-entry-1 ($arg0) (($arg1)+$etp_list_i) 2
end
end
end
end
end
end
end
define etp-list-2
# Args: Eterm cons_cell, int depth
#
# Reentrant
#
if (($arg0) & 0x3) != 0x1
printf "#NotCons<%#x>", ($arg0)
else
# Cons pointer
if ($arg1) >= $etp_max_depth
printf "...]"
else
etp-1 (((Eterm*)(($arg0)&~0x3))[0]) (($arg1)+1)
if ((Eterm*)(($arg0) & ~0x3))[1] == $etp_nil
# Tail is []
printf "]"
else
if $etp_chart
etp-chart-entry-1 ($arg0) ($arg1) 2
end
if (((Eterm*)(($arg0)&~0x3))[1]&0x3) == 0x1
# Tail is cons cell
printf ","
etp-list-2 (((Eterm*)(($arg0)&~0x3))[1]) (($arg1)+1)
else
# Tail is other term
printf "|"
etp-1 (((Eterm*)(($arg0)&~0x3))[1]) (($arg1)+1)
printf "]"
end
end
end
end
end
define etpf-cons
# Args: Eterm
#
# Reentrant capable
#
if ((Eterm)($arg0) & 0x3) != 0x1
printf "#NotCons<%#x>", ($arg0)
else
# Cons pointer
set $etp_flat = 1
printf "["
etp-1 (((Eterm*)((Eterm)($arg0)&~0x3))[0])
printf "|"
etp-1 (((Eterm*)((Eterm)($arg0)&~0x3))[1])
printf "]\n"
set $etp_flat = 0
end
end
document etpf-cons
%---------------------------------------------------------------------------
% etpf-cons Eterm
%
% Takes a Cons ptr and prints the Car and Cdr cells with etpf (flat).
%---------------------------------------------------------------------------
end
define etp-boxed-1
# Args: Eterm, int depth
#
# Reentrant
#
if (($arg0) & 0x3) != 0x2
printf "#NotBoxed<%#x>", ($arg0)
else
if (((Eterm*)(($arg0) & ~0x3))[0] & 0x3) != 0x0
if $etp_chart
etp-chart-entry-1 (($arg0)&~0x3) ($arg1) 1
end
printf "#BoxedError<%#x>", ($arg0)
else
if $etp_chart
etp-chart-entry-1 (($arg0)&~0x3) ($arg1) \
((((Eterm*)(($arg0)&~0x3))[0]>>6)+1)
end
if (((Eterm*)(($arg0) & ~0x3))[0] & 0x3f) == 0x0
printf "{"
etp-array-1 ((Eterm*)(($arg0)&~0x3)) ($arg1) ($arg1) \
1 ((((Eterm*)(($arg0)&~0x3))[0]>>6)+1) '}'
else
if (((Eterm*)(($arg0) & ~0x3))[0] & 0x3c) == 0x3c
# A map
if (((Eterm*)(($arg0) & ~0x3))[0] & 0xc0) == 0x0
# Flat map
printf "#{Keys:"
etp-1 ((flatmap_t*)(($arg0)&~0x3))->keys (($arg1)+1)
printf " Values:{"
etp-array-1 ((Eterm*)(($arg0)&~0x3)+3) ($arg1) ($arg1) \
0 ((flatmap_t*)(($arg0)&~0x3))->size '}'
printf "}"
else
# Hashmap
printf "#<%x>{", (((((Eterm*)(($arg0)&~0x3))[0])>>(6+2+8))&0xffff)
if (((Eterm*)(($arg0) & ~0x3))[0] & 0xc0) >= 0x80
# head bitmap/array
etp-bitmap-array-1 ((Eterm*)(($arg0)&~0x3)+2) ($arg1) ($arg1) \
0 (((((Eterm*)(($arg0)&~0x3))[0])>>(6+2+8))&0xffff) '}'
else
# node bitmap
etp-bitmap-array-1 ((Eterm*)(($arg0)&~0x3)+1) ($arg1) ($arg1) \
0 (((((Eterm*)(($arg0)&~0x3))[0])>>(6+2+8))&0xffff) '}'
end
end
else
etp-boxed-immediate-1 ($arg0)
end
end
end
end
end
define etp-boxed-immediate-1
# Args: Eterm, int depth
#
# Non-reentrant
#
if (($arg0) & 0x3) != 0x2
printf "#NotBoxed<%#x>", ($arg0)
else
if (((Eterm*)(($arg0) & ~0x3))[0] & 0x3) != 0x0
printf "#BoxedError<%#x>", ($arg0)
else
set $etp_boxed_immediate_p = (Eterm*)(($arg0) & ~0x3)
set $etp_boxed_immediate_h = ($etp_boxed_immediate_p[0] >> 2) & 0xF
if $etp_boxed_immediate_h == 0xC
etp-extpid-1 ($arg0)
else
if $etp_boxed_immediate_h == 0xD
etp-extport-1 ($arg0)
else
if ($etp_boxed_immediate_h == 0x2) || \
($etp_boxed_immediate_h == 0x3)
etp-bignum-1 ($arg0)
else
if ($etp_boxed_immediate_h == 0x6)
etp-float-1 ($arg0)
else
if ($etp_boxed_immediate_h == 0x4)
etp-ref-1 ($arg0)
else
if ($etp_boxed_immediate_h == 0xE)
etp-extref-1 ($arg0)
else
# Hexdump the rest
if ($etp_boxed_immediate_h == 0x5)
printf "#Fun<"
else
if ($etp_boxed_immediate_h == 0x8)
printf "#RefcBinary<"
else
if ($etp_boxed_immediate_h == 0x9)
printf "#HeapBinary<"
else
if ($etp_boxed_immediate_h == 0xA)
printf "#SubBinary<"
else
printf "#Header%X<", $etp_boxed_immediate_h
end
end
end
end
set $etp_boxed_immediate_arity = $etp_boxed_immediate_p[0]>>6
while $etp_boxed_immediate_arity > 0
set $etp_boxed_immediate_p++
if $etp_boxed_immediate_arity > 1
printf "%#x,", *$etp_boxed_immediate_p
else
printf "%#x", *$etp_boxed_immediate_p
if ($etp_boxed_immediate_h == 0xA)
set $etp_boxed_immediate_p++
printf ":%#x", *$etp_boxed_immediate_p
end
printf ">"
end
set $etp_boxed_immediate_arity--
end
# End of hexdump
end
end
end
end
end
end
end
end
end
define etpf-boxed
# Args: Eterm
#
# Non-reentrant
#
set $etp_flat = 1
etp-boxed-1 ((Eterm)($arg0)) 0
set $etp_flat = 0
printf ".\n"
end
document etpf-boxed
%---------------------------------------------------------------------------
% etpf-boxed Eterm
%
% Take a Boxed ptr and print the contents in one level using etpf (flat).
%---------------------------------------------------------------------------
end
define etp-array-1
# Args: Eterm* p, int depth, int width, int pos, int size, int end_char
#
# Reentrant
#
if ($arg3) < ($arg4)
if (($arg1) < $etp_max_depth) && (($arg2) < $etp_max_depth)
etp-1 (($arg0)[($arg3)]) (($arg1)+1)
if (($arg3) + 1) != ($arg4)
printf ","
end
etp-array-1 ($arg0) ($arg1) (($arg2)+1) (($arg3)+1) ($arg4) ($arg5)
else
printf "...%c", ($arg5)
end
else
printf "%c", ($arg5)
end
end
define etp-bitmap-array-1
# Args: Eterm* p, int depth, int width, int pos, int bitmap, int end_char
#
# Reentrant
#
# Same as etp-array-1 with size = bitcount(bitmap)
#
if ($arg4) & 1 != 0
if (($arg1) < $etp_max_depth) && (($arg2) < $etp_max_depth)
etp-1 (($arg0)[($arg3)]) (($arg1)+1)
if (($arg4) & (($arg4)-1)) != 0
printf ","
end
etp-bitmap-array-1 ($arg0) ($arg1) (($arg2)+1) (($arg3)+1) (($arg4)>>1) ($arg5)
else
printf "...%c", ($arg5)
end
else
if ($arg4) == 0
printf "%c", ($arg5)
else
etp-bitmap-array-1 $arg0 $arg1 $arg2 $arg3 (($arg4)>>1) $arg5
# WARNING: One might be tempted to optimize the bitcounting here
# by passing the bitmap argument as ($arg4 & ($arg4 - 1)). This is a very
# bad idea as arguments are passed as string substitution.
# The size of $arg4 would thus grow exponentially for each recursion.
end
end
end
#define etpa-1
## Args: Eterm, int depth, int index, int arity
##
## Reentrant
##
# if ($arg1) >= $etp_max_depth+$etp_max_string_length
# printf "%% Max depth for term %d\n", $etp_chart_id
# else
# if ($arg2) < ($arg3)
# etp-1 (((Eterm*)(($arg0)&~0x3))[$arg2]) (($arg1)+1)
# etpa-1 ($arg0) (($arg1)+1) (($arg2)+1) ($arg3)
# end
# end
#end
############################################################################
# Commands for non-nested terms. Recursion leaves. Some call other leaves.
#
define etp-immediate-1
# Args: Eterm
#
# Reentrant capable
#
if (($arg0) & 0x3) != 0x3
printf "#NotImmediate<%#x>", ($arg0)
else
if (($arg0) & 0xF) == 0x3
etp-pid-1 ($arg0)
else
if (($arg0) & 0xF) == 0x7
etp-port-1 ($arg0)
else
if (($arg0) & 0xF) == 0xf
# Fixnum
printf "%ld", (long)((Sint)($arg0)>>4)
else
# Immediate2 - 0xB
if (($arg0) & 0x3f) == 0x0b
etp-atom-1 ($arg0)
else
if (($arg0) & 0x3f) == 0x1b
printf "#Catch<%d>", ($arg0)>>6
else
if (($arg0) == $etp_nil)
printf "[]"
else
printf "#UnknownImmediate<%#x>", ($arg0)
end
end
end
end
end
end
end
end
define etp-atom-1
# Args: Eterm atom
#
# Non-reentrant
#
if ((Eterm)($arg0) & 0x3f) != 0xb
printf "#NotAtom<%#x>", ($arg0)
else
set $etp_atom_1_ap = (Atom*)erts_atom_table.seg_table[(Eterm)($arg0)>>16][((Eterm)($arg0)>>6)&0x3FF]
set $etp_atom_1_i = ($etp_atom_1_ap)->len
set $etp_atom_1_p = ($etp_atom_1_ap)->name
set $etp_atom_1_quote = 1
# Check if atom has to be quoted
if ($etp_atom_1_i > 0)
etp-ct-atom-1 (*$etp_atom_1_p)
if $etp_ct_atom
# Atom start character
set $etp_atom_1_p++
set $etp_atom_1_i--
set $etp_atom_1_quote = 0
else
set $etp_atom_1_i = 0
end
end
while $etp_atom_1_i > 0
etp-ct-name-1 (*$etp_atom_1_p)
if $etp_ct_name
# Name character
set $etp_atom_1_p++
set $etp_atom_1_i--
else
set $etp_atom_1_quote = 1
set $etp_atom_1_i = 0
end
end
# Print the atom
if $etp_atom_1_quote
printf "'"
end
set $etp_atom_1_i = ($etp_atom_1_ap)->len
set $etp_atom_1_p = ($etp_atom_1_ap)->name
while $etp_atom_1_i > 0
etp-char-1 (*$etp_atom_1_p) '\''
set $etp_atom_1_p++
set $etp_atom_1_i--
end
if $etp_atom_1_quote
printf "'"
end
end
end
define etp-char-1
# Args: int char, int quote_char
#
# Non-reentrant
#
if (($arg0) < 0) || (0377 < ($arg0))
printf "#NotChar<%#x>", ($arg0)
else
if ($arg0) == ($arg1)
printf "\\%c", ($arg0)
else
etp-ct-printable-1 ($arg0)
if $etp_ct_printable
if $etp_ct_printable < 0
printf "%c", ($arg0)
else
printf "\\%c", $etp_ct_printable
end
else
printf "\\%03o", ($arg0)
end
end
end
end
define etp-ct-printable-1
# Args: int
#
# Determines if integer is a printable character
#
# Non-reentrant
# Returns: $etp_ct_printable
# escape alias char, or -1 if no escape alias
if ($arg0) == 010
set $etp_ct_printable = 'b'
else
if ($arg0) == 011
set $etp_ct_printable = 't'
else
if ($arg0) == 012
set $etp_ct_printable = 'n'
else
if ($arg0) == 013
set $etp_ct_printable = 'v'
else
if ($arg0) == 014
set $etp_ct_printable = 'f'
else
if ($arg0) == 033
set $etp_ct_printable = 'e'
else
if ((040 <= ($arg0)) && (($arg0) <= 0176)) || \
((0240 <= ($arg0)) && (($arg0) <= 0377))
# Other printable character
set $etp_ct_printable = -1
else
set $etp_ct_printable = 0
end
end
end
end
end
end
end
end
define etp-ct-atom-1
# Args: int
#
# Determines if integer is an atom first character
#
# Non-reentrant
# Returns: $etp_ct_atom
if ((0141 <= ($arg0)) && (($arg0) <= 0172)) || \
((0337 <= ($arg0)) && (($arg0) != 0367) && (($arg0) <= 0377))
# Atom start character
set $etp_ct_atom = 1
else
set $etp_ct_atom = 0
end
end
define etp-ct-variable-1
# Args: int
#
# Determines if integer is a variable first character
#
# Non-reentrant
# Returns: $etp_ct_variable
if ((056 == ($arg0)) || \
(0101 <= ($arg0)) && (($arg0) <= 0132)) || \
(0137 == ($arg0)) || \
((0300 <= ($arg0)) && (($arg0) != 0327) && (($arg0) <= 0336))
# Variable start character
set $etp_ct_variable = 1
else
set $etp_ct_variable = 0
end
end
define etp-ct-name-1
# Args: int
#
# Determines if integer is a name character,
# i.e non-first atom or variable character.
#
# Non-reentrant
# Returns: $etp_ct_variable
if (($arg0) == 0100 || \
(060 <= ($arg0)) && (($arg0) <= 071))
set $etp_ct_name = 1
else
etp-ct-atom-1 ($arg0)
if $etp_ct_atom
set $etp_ct_name = 1
else
etp-ct-variable-1 ($arg0)
set $etp_ct_name = $etp_ct_variable
end
end
end
define etp-pid-1
# Args: Eterm pid
#
# Non-reentrant
#
set $etp_pid_1 = (Eterm)($arg0)
if ($etp_pid_1 & 0xF) == 0x3
if (etp_arch_bits == 64)
if (etp_big_endian)
set $etp_pid_data = (unsigned) ((((Uint64) $etp_pid_1) >> 35) & 0x0fffffff)
else
set $etp_pid_data = (unsigned) ((((Uint64) $etp_pid_1) >> 4) & 0x0fffffff)
end
else
set $etp_pid_data = (unsigned) (((((Uint32) $etp_pid_1) >> 4) & ~erts_proc.r.o.pix_mask) | ((((Uint32) $etp_pid_1) >> (erts_proc.r.o.pix_cl_shift + 4)) & erts_proc.r.o.pix_cl_mask) | (((((Uint32) $etp_pid_1) >> 4) & erts_proc.r.o.pix_cli_mask) << erts_proc.r.o.pix_cli_shift))
end
# Internal pid
printf "<0.%u.%u>", $etp_pid_data & 0x7fff, ($etp_pid_data >> 15) & 0x1fff
else
printf "#NotPid<%#x>", ($arg0)
end
end
define etp-extpid-1
# Args: Eterm extpid
#
# Non-reentrant
#
if ((Eterm)($arg0) & 0x3) != 0x2
printf "#NotBoxed<%#x>", (Eterm)($arg0)
else
set $etp_extpid_1_p = (ExternalThing*)((Eterm)($arg0) & ~0x3)
if ($etp_extpid_1_p->header & 0x3f) != 0x30
printf "#NotExternalPid<%#x>", $etp_extpid_1_p->header
else
## External pid
set $etp_extpid_1_number = $etp_extpid_1_p->data.ui[0]&0x7fff
set $etp_extpid_1_serial = ($etp_extpid_1_p->data.ui[0]>>15)&0x1fff
set $etp_extpid_1_np = $etp_extpid_1_p->node
set $etp_extpid_1_creation = $etp_extpid_1_np->creation
set $etp_extpid_1_dep = $etp_extpid_1_np->dist_entry
set $etp_extpid_1_node = $etp_extpid_1_np->sysname
if ($etp_extpid_1_node & 0x3f) != 0xb
# Should be an atom
printf "#ExternalPidError<%#x>", ($arg0)
else
if $etp_extpid_1_dep == erts_this_dist_entry
printf "<0:"
else
printf "<%u:", $etp_extpid_1_node>>6
end
etp-atom-1 ($etp_extpid_1_node)
printf "/%u.%u.%u>", $etp_extpid_1_creation, \
$etp_extpid_1_number, $etp_extpid_1_serial
end
end
end
end
define etp-port-1
# Args: Eterm port
#
# Non-reentrant
#
set $etp_port_1 = (Eterm)($arg0)
if ($etp_port_1 & 0xF) == 0x7
if (etp_arch_bits == 64)
if (etp_big_endian)
set $etp_port_data = (unsigned) ((((Uint64) $etp_port_1) >> 36) & 0x0fffffff)
else
set $etp_port_data = (unsigned) ((((Uint64) $etp_port_1) >> 4) & 0x0fffffff)
end
else
set $etp_port_data = (unsigned) (((((Uint32) $etp_port_1) >> 4) & ~erts_port.r.o.pix_mask) | ((((Uint32) $etp_port_1) >> (erts_port.r.o.pix_cl_shift + 4)) & erts_port.r.o.pix_cl_mask) | (((((Uint32) $etp_port_1) >> 4) & erts_port.r.o.pix_cli_mask) << erts_port.r.o.pix_cli_shift))
end
# Internal port
printf "#Port<0.%u>", $etp_port_data
else
printf "#NotPort<%#x>", ($arg0)
end
end
define etp-extport-1
# Args: Eterm extport
#
# Non-reentrant
#
if ((Eterm)($arg0) & 0x3) != 0x2
printf "#NotBoxed<%#x>", (Eterm)($arg0)
else
set $etp_extport_1_p = (ExternalThing*)((Eterm)($arg0) & ~0x3)
if ($etp_extport_1_p->header & 0x3F) != 0x34
printf "#NotExternalPort<%#x>", $etp_extport_1->header
else
## External port
set $etp_extport_1_number = $etp_extport_1_p->data.ui[0]&0x3ffff
set $etp_extport_1_np = $etp_extport_1_p->node
set $etp_extport_1_creation = $etp_extport_1_np->creation
set $etp_extport_1_dep = $etp_extport_1_np->dist_entry
set $etp_extport_1_node = $etp_extport_1_np->sysname
if ($etp_extport_1_node & 0x3f) != 0xb
# Should be an atom
printf "#ExternalPortError<%#x>", ($arg0)
else
if $etp_extport_1_dep == erts_this_dist_entry
printf "#Port<0:"
else
printf "#Port<%u:", $etp_extport_1_node>>6
end
etp-atom-1 ($etp_extport_1_node)
printf "/%u.%u>", $etp_extport_1_creation, $etp_extport_1_number
end
end
end
end
define etp-bignum-1
# Args: Eterm bignum
#
# Non-reentrant
#
if ((Eterm)($arg0) & 0x3) != 0x2
printf "#NotBoxed<%#x>", (Eterm)($arg0)
else
set $etp_bignum_1_p = (Eterm*)((Eterm)($arg0) & ~0x3)
if ($etp_bignum_1_p[0] & 0x3b) != 0x08
printf "#NotBignum<%#x>", $etp_bignum_1_p[0]
else
set $etp_bignum_1_i = ($etp_bignum_1_p[0] >> 6)
if $etp_bignum_1_i < 1
printf "#BignumError<%#x>", (Eterm)($arg0)
else
if $etp_bignum_1_p[0] & 0x04
printf "-"
end
set $etp_bignum_1_p = (ErtsDigit *)($etp_bignum_1_p + 1)
printf "16#"
if $etp_arch64
while $etp_bignum_1_i > 0
set $etp_bignum_1_i--
printf "%016lx", $etp_bignum_1_p[$etp_bignum_1_i]
end
else
while $etp_bignum_1_i > 0
set $etp_bignum_1_i--
printf "%08x", $etp_bignum_1_p[$etp_bignum_1_i]
end
end
end
end
end
end
define etp-float-1
# Args: Eterm float
#
# Non-reentrant
#
if ((Eterm)($arg0) & 0x3) != 0x2
printf "#NotBoxed<%#x>", (Eterm)($arg0)
else
set $etp_float_1_p = (Eterm*)((Eterm)($arg0) & ~0x3)
if ($etp_float_1_p[0] & 0x3f) != 0x18
printf "#NotFloat<%#x>", $etp_float_1_p[0]
else
printf "%f", *(double*)($etp_float_1_p+1)
end
end
end
define etp-ref-1
# Args: Eterm ref
#
# Non-reentrant
#
if ((Eterm)($arg0) & 0x3) != 0x2
printf "#NotBoxed<%#x>", (Eterm)($arg0)
else
set $etp_ref_1_p = (RefThing *)((Eterm)($arg0) & ~0x3)
if ($etp_ref_1_p->header & 0x3b) != 0x10
printf "#NotRef<%#x>", $etp_ref_1_p->header
else
set $etp_ref_1_nump = (Uint32 *) 0
set $etp_ref_1_error = 0
if ($etp_ref_1_p->header >> 6) == 0
set $etp_ref_1_error = 1
else
if $etp_arch64
set $etp_ref_1_i = (int) $etp_ref_1_p->data.ui32[0]
if (($etp_ref_1_i + 1) > (2 * ($etp_ref_1_p->header >> 6)))
set $etp_ref_1_error = 1
else
set $etp_ref_1_nump = &$etp_ref_1_p->data.ui32[1]
end
else
set $etp_ref_1_i = (int) ($etp_ref_1_p->header >> 6)
set $etp_ref_1_nump = &$etp_ref_1_p->data.ui32[0]
end
end
if $etp_ref_1_error
printf "#InternalRefError<%#x>", ($arg0)
else
printf "#Ref<0"
set $etp_ref_1_i--
while $etp_ref_1_i >= 0
printf ".%u", (unsigned) $etp_ref_1_nump[$etp_ref_1_i]
set $etp_ref_1_i--
end
printf ">"
end
end
end
end
define etp-extref-1
# Args: Eterm extref
#
# Non-reentrant
#
if ((Eterm)($arg0) & 0x3) != 0x2
printf "#NotBoxed<%#x>", (Eterm)($arg0)
else
set $etp_extref_1_p = (ExternalThing*)((Eterm)($arg0) & ~0x3)
if ($etp_extref_1_p->header & 0x3F) != 0x38
printf "#NotExternalRef<%#x>", $etp_extref_1->header
else
## External ref
set $etp_extref_1_nump = (Uint32 *) 0
set $etp_extref_1_error = 0
set $etp_extref_1_i = (int) ($etp_extref_1_p->header >> 6)
set $etp_extref_1_np = $etp_extref_1_p->node
set $etp_extref_1_creation = $etp_extref_1_np->creation
set $etp_extref_1_dep = $etp_extref_1_np->dist_entry
set $etp_extref_1_node = $etp_extref_1_np->sysname
if ($etp_extref_1_node & 0x3f) != 0xb || $etp_extref_1_i < 3
# Node should be an atom
set $etp_extref_1_error = 1
else
## $etp_extref_1_i now equals data (Uint) words
set $etp_extref_1_i -= 2
if $etp_arch64
if ((((int) $etp_extref_1_p->data.ui32[0]) + 1) \
> (2 * $etp_extref_1_i))
set $etp_extref_1_error = 1
else
set $etp_extref_1_nump = &$etp_extref_1_p->data.ui32[1]
set $etp_extref_1_i = (int) $etp_extref_1_p->data.ui32[0]
end
else
set $etp_extref_1_nump = &$etp_extref_1_p->data.ui32[0]
end
## $etp_extref_1_i now equals no of ref num (Uint32) words
if !$etp_extref_1_error
if $etp_extref_1_dep == erts_this_dist_entry
printf "#Ref<0:"
else
printf "#Ref<%u:", $etp_extref_1_node>>6
end
etp-atom-1 ($etp_extref_1_node)
printf "/%u", $etp_extref_1_creation
end
end
if $etp_extref_1_error
printf "#ExternalRefError<%#x>", ($arg0)
else
set $etp_extref_1_i--
while $etp_extref_1_i >= 0
printf ".%u", (unsigned) $etp_extref_1_nump[$etp_extref_1_i]
set $etp_extref_1_i--
end
printf ">"
end
end
end
end
define etp-mfa-1
# Args: Eterm*, int offset
#
# Reentrant
#
printf "<"
etp-atom-1 (((Eterm*)($arg0))[0])
printf ":"
etp-atom-1 (((Eterm*)($arg0))[1])
printf "/%d", ((Eterm*)($arg0))[2]
if ($arg1) > 0
printf "+%#x>", ($arg1)
else
printf ">"
end
end
define etp-mfa
# Args: Eterm*
#
# Reentrant capable
#
etp-mfa-1 ($arg0) 0
printf ".\n"
end
document etp-mfa
%---------------------------------------------------------------------------
% etp-mfa Eterm*
%
% Take an Eterm* to an MFA function name entry and print it.
% These can be found e.g in the process structure;
% process_tab[i]->current and process_tab[i]->initial.
%---------------------------------------------------------------------------
end
define etp-cp-1
# Args: Eterm cp
#
# Non-reentrant
#
set $etp_cp = (Eterm)($arg0)
set $etp_ranges = &r[(int)the_active_code_index]
set $etp_cp_low = $etp_ranges->modules
set $etp_cp_high = $etp_cp_low + $etp_ranges->n
set $etp_cp_mid = (Range*)$etp_ranges->mid
set $etp_cp_p = 0
#
while $etp_cp_low < $etp_cp_high
if $etp_cp < $etp_cp_mid->start
set $etp_cp_high = $etp_cp_mid
else
if $etp_cp > (BeamInstr*)$etp_cp_mid->end
set $etp_cp_low = $etp_cp_mid + 1
else
set $etp_cp_p = $etp_cp_low = $etp_cp_high = $etp_cp_mid
end
end
set $etp_cp_mid = $etp_cp_low + ($etp_cp_high-$etp_cp_low)/2
end
if $etp_cp_p
# 13 = MI_FUNCTIONS
set $etp_cp_low = (Eterm**)($etp_cp_p->start + 13)
# 0 = MI_NUM_FUNCTIONS
set $etp_cp_high = $etp_cp_low +$etp_cp_p->start[0]
set $etp_cp_p = 0
while $etp_cp_low < $etp_cp_high
set $etp_cp_mid = $etp_cp_low + ($etp_cp_high-$etp_cp_low)/2
if $etp_cp < $etp_cp_mid[0]
set $etp_cp_high = $etp_cp_mid
else
if $etp_cp < $etp_cp_mid[1]
set $etp_cp_p = $etp_cp_mid[0]+2
set $etp_cp_low = $etp_cp_high = $etp_cp_mid
else
set $etp_cp_low = $etp_cp_mid + 1
end
end
end
end
if $etp_cp_p
printf "#Cp"
etp-mfa-1 ($etp_cp_p) ($etp_cp-((Eterm)($etp_cp_p-2)))
else
if $etp_cp == beam_apply+1
printf "#Cp<terminate process normally>"
else
if *(Eterm*)($etp_cp) == beam_return_trace[0]
if ($etp_cp) == beam_exception_trace
printf "#Cp<exception trace>"
else
printf "#Cp<return trace>"
end
else
if *(Eterm*)($etp_cp) == beam_return_to_trace[0]
printf "#Cp<return to trace>"
else
printf "#Cp<%#x>", $etp_cp
end
end
end
end
end
define etp-cp
# Args: Eterm cp
#
# Reentrant capable
#
etp-cp-1 ($arg0)
printf ".\n"
end
document etp-cp
%---------------------------------------------------------------------------
% etp-cp Eterm
%
% Take a code continuation pointer and print
% module, function, arity and offset.
%
% Code continuation pointers can be found in the process structure e.g
% process_tab[i]->cp and process_tab[i]->i, the second is the
% program counter, which is the same thing as a continuation pointer.
%---------------------------------------------------------------------------
end
define etp-check-beam-ranges
set $etp_ci = 0
while $etp_ci < 3
printf "Checking code index %i...\n", $etp_ci
set $etp_j = 0
while $etp_j < r[$etp_ci].n
set $etp_p = &r[$etp_ci].modules[$etp_j]
if $etp_j > 0 && $etp_p->start < (Range*)$etp_p[-1].end.counter
printf "r[%i].modules[%i]: ERROR start < previous\n", $etp_ci, $etp_j
end
if $etp_p->start > (Range*)$etp_p->end.counter
printf "r[%i].modules[%i]: ERROR start > end\n", $etp_ci, $etp_j
else
if $etp_p->start == (Range*)$etp_p->end.counter
printf "r[%i].modules[%i]: Purged\n", $etp_ci, $etp_j
end
end
set $etp_j = $etp_j + 1
end
set $etp_ci = $etp_ci + 1
end
end
document etp-check-beam-ranges
%---------------------------------------------------------------------------
% etp-check-beam-ranges
%
% Do consistency check of beam_ranges data structure
% and print errors and empty slots from purged modules.
%---------------------------------------------------------------------------
end
############################################################################
# Commands for special term bunches.
#
define etp-msgq
# Args: ErlMessageQueue*
#
# Non-reentrant
#
set $etp_msgq = ($arg0)
set $etp_msgq_p = $etp_msgq->first
set $etp_msgq_i = $etp_msgq->len
set $etp_msgq_prev = $etp_msgq->last
printf "%% Message queue (%d):", $etp_msgq_i
if ($etp_msgq_i > 0) && $etp_msgq_p
printf "\n["
else
printf "\n"
end
while ($etp_msgq_i > 0) && $etp_msgq_p
set $etp_msgq_i--
set $etp_msgq_next = $etp_msgq_p->next
# Msg
etp-1 ($etp_msgq_p->m[0]) 0
if ($etp_msgq_i > 0) && $etp_msgq_next
printf ", %% "
else
printf "]. %% "
end
# Seq_trace token
etp-1 ($etp_msgq_p->m[1]) 0
if $etp_msgq_p == $etp_msgq->save
printf ", <=\n"
else
printf "\n"
end
if ($etp_msgq_i > 0) && $etp_msgq_next
printf " "
end
#
set $etp_msgq_prev = $etp_msgq_p
set $etp_msgq_p = $etp_msgq_next
end
if $etp_msgq_i != 0
printf "#MsgQShort<%d>\n", $etp_msgq_i
end
if $etp_msgq_p != 0
printf "#MsgQLong<%#lx%p>\n", (unsigned long)$etp_msgq_p
end
if $etp_msgq_prev != $etp_msgq->last
printf "#MsgQEndError<%#lx%p>\n", (unsigned long)$etp_msgq_prev
end
end
document etp-msgq
%---------------------------------------------------------------------------
% etp-msgq ErlMessageQueue*
%
% Take an ErlMessageQueue* and print the contents of the message queue.
% Sequential trace tokens are included in comments and
% the current match position in the queue is marked '<='.
%
% A process's message queue is process_tab[i]->msg.
%---------------------------------------------------------------------------
end
define etpf-msgq
# Args: Process*
#
# Non-reentrant
#
set $etp_flat = 1
etp-msgq ($arg0)
set $etp_flat = 0
end
document etpf-msgq
%---------------------------------------------------------------------------
% etpf-msgq ErlMessageQueue*
%
% Same as 'etp-msgq' but print the messages using etpf (flat).
%---------------------------------------------------------------------------
end
define etp-stacktrace
# Args: Process*
#
# Non-reentrant
#
set $etp_stacktrace_p = ($arg0)->stop
set $etp_stacktrace_end = ($arg0)->hend
printf "%% Stacktrace (%u): ", $etp_stacktrace_end-$etp_stacktrace_p
etp ($arg0)->cp
while $etp_stacktrace_p < $etp_stacktrace_end
if ($etp_stacktrace_p[0] & 0x3) == 0x0
# Continuation pointer
etp $etp_stacktrace_p[0]
end
set $etp_stacktrace_p++
end
end
document etp-stacktrace
%---------------------------------------------------------------------------
% etp-stacktrace Process*
%
% Take an Process* and print a stactrace for the process.
% The stacktrace consists just of the pushed code continuation
% pointers on the stack, the most recently pushed first.
%---------------------------------------------------------------------------
end
define etp-stackdump
# Args: Process*
#
# Non-reentrant
#
set $etp_stackdump_p = ($arg0)->stop
set $etp_stackdump_end = ($arg0)->hend
printf "%% Stackdump (%u): ", $etp_stackdump_end-$etp_stackdump_p
etp ($arg0)->cp
while $etp_stackdump_p < $etp_stackdump_end
etp $etp_stackdump_p[0]
set $etp_stackdump_p++
end
end
document etp-stackdump
%---------------------------------------------------------------------------
% etp-stackdump Process*
%
% Take an Process* and print a stackdump for the process.
% The stackdump consists of all pushed values on the stack.
% All code continuation pointers are preceeded with a line
% of dashes to make the stack frames more visible.
%---------------------------------------------------------------------------
end
define etpf-stackdump
# Args: Process*
#
# Non-reentrant
#
set $etp_flat = 1
etp-stackdump ($arg0)
set $etp_flat = 0
end
document etpf-stackdump
%---------------------------------------------------------------------------
% etpf-stackdump Process*
%
% Same as etp-stackdump but print the values using etpf (flat).
%---------------------------------------------------------------------------
end
define etp-heapdump
# Args: Process*
#
# Non-reentrant
etp-heapdump-1 ($arg0)->heap ($arg0)->htop
end
document etp-heapdump
%---------------------------------------------------------------------------
% etp-heapdump Process*
%
% Take an Process* and print a heapdump for the process heap.
%---------------------------------------------------------------------------
end
define etp-heapdump-old
# Args: Process*
#
# Non-reentrant
etp-heapdump-1 ($arg0)->old_heap ($arg0)->old_htop
end
document etp-heapdump
%---------------------------------------------------------------------------
% etp-heapdump-old Process*
%
% Take an Process* and print a heapdump for the process old heap (gen-heap).
%---------------------------------------------------------------------------
end
define etp-heapdump-1
# Args: Eterm* heap, Eterm* htop
#
# Non-reentrant
set $etp_heapdump_heap = (Eterm*)($arg0)
set $etp_heapdump_p = (Eterm*)($arg0)
set $etp_heapdump_end = (Eterm*)($arg1)
set $etp_heapdump_skips = 0
printf "%% heapdump (%u):\n", $etp_heapdump_end-$etp_heapdump_p
while $etp_heapdump_p < $etp_heapdump_end
set $etp_heapdump_ix = 0
printf " %p: ", $etp_heapdump_p
while $etp_heapdump_p < $etp_heapdump_end && $etp_heapdump_ix < 8
if ($etp_heapdump_skips > 0)
printf "| 0x%08x ", ($etp_heapdump_p)
set $etp_heapdump_skips--
else
etp-term-dump $etp_heapdump_p[0]
end
set $etp_heapdump_p++
set $etp_heapdump_ix++
end
printf "\n"
end
end
define etp-term-dump
# Args: Eterm
if (($arg0) & 0x3) == 0
etp-term-dump-header ($arg0)
else
if (($arg0) & 0x3) == 1
# Cons pointer
set $etp_term_dump_cons_p = ((Eterm*)(($arg0) & ~0x3))
if $etp_term_dump_cons_p > $etp_heapdump_heap && $etp_term_dump_cons_p < $etp_heapdump_end
printf "| C:0x%08x ", $etp_term_dump_cons_p
#printf "| C: --> %5d ", $etp_heapdump_p - $etp_term_dump_cons_p - 1
else
printf "| C:0x%08x ", $etp_term_dump_cons_p
end
else
if (($arg0) & 0x3) == 2
# Box pointer
printf "| B:0x%08x ", ($arg0)
else
if (($arg0) & 0x3) == 3
# immediate
etp-term-dump-immediate ($arg0)
else
printf "| U:0x%08x ", ($arg0)
end
end
end
end
end
define etp-term-dump-immediate
# Args: immediate term
if (($arg0) & 0xF) == 0xf
# Fixnum
etp-ct-printable-1 ((long)((Sint)($arg0)>>4))
if $etp_ct_printable
if $etp_ct_printable < 0
printf "| I: %c (%3ld) ", (long)((Sint)($arg0)>>4), (long)((Sint)($arg0)>>4)
else
printf "| I: \\%c (%3ld) ", (long)((Sint)($arg0)>>4), (long)((Sint)($arg0)>>4)
end
else
printf "| I:%10ld ", (long)((Sint)($arg0)>>4)
end
else
if (($arg0) & 0xF) == 0x3
etp-term-dump-pid ($arg0)
else
if (($arg0) & 0xF) == 0x7
printf "| port:0x%05x ", ($arg0)
else
# Immediate2 - 0xB
if (($arg0) & 0x3f) == 0x0b
etp-term-dump-atom ($arg0)
else
if (($arg0) & 0x3f) == 0x1b
printf "| #Catch<%06d> ", ($arg0)>>6
else
if (($arg0) == $etp_nil)
printf "| [] (NIL) "
else
printf "| I:0x%08x ", ($arg0)
end
end
end
end
end
end
end
define etp-term-dump-atom
# Args: atom term
set $etp_atom_1_ap = (Atom*)erts_atom_table.seg_table[(Eterm)($arg0)>>16][((Eterm)($arg0)>>6)&0x3FF]
set $etp_atom_1_i = ($etp_atom_1_ap)->len
set $etp_atom_1_p = ($etp_atom_1_ap)->name
set $etp_atom_1_quote = 1
set $etp_atom_indent = 13
if ($etp_atom_1_i < 11)
if ($etp_atom_1_i > 0)
etp-ct-atom-1 (*$etp_atom_1_p)
if $etp_ct_atom
set $etp_atom_indent = 13
else
set $etp_atom_indent = 11
end
end
# perform indentation
printf "|"
while ($etp_atom_1_i < $etp_atom_indent)
printf " "
set $etp_atom_1_i++
end
set $etp_atom_1_i = ($etp_atom_1_ap)->len
# Check if atom has to be quoted
if ($etp_atom_1_i > 0)
etp-ct-atom-1 (*$etp_atom_1_p)
if $etp_ct_atom
# Atom start character
set $etp_atom_1_p++
set $etp_atom_1_i--
set $etp_atom_1_quote = 0
else
set $etp_atom_1_i = 0
end
end
while $etp_atom_1_i > 0
etp-ct-name-1 (*$etp_atom_1_p)
if $etp_ct_name
# Name character
set $etp_atom_1_p++
set $etp_atom_1_i--
else
set $etp_atom_1_quote = 1
set $etp_atom_1_i = 0
end
end
# Print the atom
if $etp_atom_1_quote
printf "'"
end
set $etp_atom_1_i = ($etp_atom_1_ap)->len
set $etp_atom_1_p = ($etp_atom_1_ap)->name
while $etp_atom_1_i > 0
etp-char-1 (*$etp_atom_1_p) '\''
set $etp_atom_1_p++
set $etp_atom_1_i--
end
if $etp_atom_1_quote
printf "'"
end
printf " "
else
printf "| A:0x%08x ", ($arg0)
end
end
define etp-term-dump-pid
# Args: Eterm pid
#
# Non-reentrant
#
set $etp_pid_1 = (Eterm)($arg0)
if ($etp_pid_1 & 0xF) == 0x3
if (etp_arch_bits == 64)
if (etp_big_endian)
set $etp_pid_data = (unsigned) ((((Uint64) $etp_pid_1) >> 36) & 0x0fffffff)
else
set $etp_pid_data = (unsigned) ((((Uint64) $etp_pid_1) >> 4) & 0x0fffffff)
end
else
set $etp_pid_data = (unsigned) (((((Uint32) $etp_pid_1) >> 4) & ~erts_proc.r.o.pix_mask) | ((((Uint32) $etp_pid_1) >> (erts_proc.r.o.pix_cl_shift + 4)) & erts_proc.r.o.pix_cl_mask) | (((((Uint32) $etp_pid_1) >> 4) & erts_proc.r.o.pix_cli_mask) << erts_proc.r.o.pix_cli_shift))
end
# Internal pid
printf "| <0.%04u.%03u> ", $etp_pid_data & 0x7fff, ($etp_pid_data >> 15) & 0x1fff
else
printf "| #NotPid<%#x> ", ($arg0)
end
end
define etp-term-dump-header
# Args: Header term
if (($arg0) & 0x3f) == 0
printf "| H:%4d-tuple ", ($arg0) >> 6
else
set $etp_heapdump_skips = ($arg0) >> 6
if ((($arg0) & 0x3f) == 0x18)
printf "| H: float %3d ", ($arg0) >> 6
else
if ((($arg0) & 0x3f) == 0x28)
# sub-binary
printf "| H: sub-bin "
else
if ((($arg0) & 0x3f) == 0x8)
# pos-bignum
printf "| H:bignum %3u ", ($arg0) >> 6
else
printf "| header %5d ", ($arg0) >> 6
end
end
end
end
end
define etp-pid2pix-1
# Args: Eterm
#
if (etp_arch_bits == 64)
if (etp_big_endian)
set $etp_pix = (int) (((Uint64) $arg0) & 0x0fffffff)
else
set $etp_pix = (int) ((((Uint64) $arg0) >> 32) & 0x0fffffff)
end
else
set $etp_pix = (int) ((((Uint32) $arg0) >> 4) & erts_proc.r.o.pix_mask)
end
end
define etp-pix2proc
# Args: Eterm
#
set $proc = (Process *) *((UWord *) &erts_proc.r.o.tab[((int) $arg0)])
printf "(Process *) %p\n", $proc
end
define etp-pid2proc-1
# Args: Eterm
#
etp-pid2pix-1 $arg0
set $proc = (Process *) *((UWord *) &erts_proc.r.o.tab[$etp_pix])
end
define etp-pid2proc
# Args: Eterm
#
etp-pid2proc-1 $arg0
printf "(Process *) %p\n", $proc
end
define etp-proc-state-int
# Args: int
#
if ($arg0 & 0x80000000)
printf "GARBAGE<0x80000000> | "
end
if ($arg0 & 0x40000000)
printf "dirty-running-sys | "
end
if ($arg0 & 0x20000000)
printf "dirty-running | "
end
if ($arg0 & 0x10000000)
printf "dirty-active-sys | "
end
if ($arg0 & 0x8000000)
printf "dirty-io-proc | "
end
if ($arg0 & 0x4000000)
printf "dirty-cpu-proc | "
end
if ($arg0 & 0x2000000)
printf "on-heap-msgq | "
end
if ($arg0 & 0x1000000)
printf "off-heap-msgq | "
end
if ($arg0 & 0x800000)
printf "delayed-sys | "
end
if ($arg0 & 0x400000)
printf "proxy | "
set $proxy_process = 1
else
set $proxy_process = 0
end
if ($arg0 & 0x200000)
printf "running-sys | "
end
if ($arg0 & 0x100000)
printf "active-sys | "
end
if ($arg0 & 0x80000)
printf "trapping-exit | "
end
if ($arg0 & 0x40000)
printf "bound | "
end
if ($arg0 & 0x20000)
printf "garbage-collecting | "
end
if ($arg0 & 0x10000)
printf "suspended | "
end
if ($arg0 & 0x8000)
printf "running | "
end
if ($arg0 & 0x4000)
printf "in-run-queue | "
end
if ($arg0 & 0x2000)
printf "active | "
end
if ($arg0 & 0x1000)
printf "pending-exit | "
end
if ($arg0 & 0x800)
printf "exiting | "
end
if ($arg0 & 0x400)
printf "free | "
end
if ($arg0 & 0x200)
printf "in-prq-low | "
end
if ($arg0 & 0x100)
printf "in-prq-normal | "
end
if ($arg0 & 0x80)
printf "in-prq-high | "
end
if ($arg0 & 0x40)
printf "in-prq-max | "
end
if ($arg0 & 0x30) == 0x0
printf "prq-prio-max | "
else
if ($arg0 & 0x30) == 0x10
printf "prq-prio-high | "
else
if ($arg0 & 0x30) == 0x20
printf "prq-prio-normal | "
else
printf "prq-prio-low | "
end
end
end
if ($arg0 & 0xc) == 0x0
printf "usr-prio-max | "
else
if ($arg0 & 0xc) == 0x4
printf "usr-prio-high | "
else
if ($arg0 & 0xc) == 0x8
printf "usr-prio-normal | "
else
printf "usr-prio-low | "
end
end
end
if ($arg0 & 0x3) == 0x0
printf "act-prio-max\n"
else
if ($arg0 & 0x3) == 0x1
printf "act-prio-high\n"
else
if ($arg0 & 0x3) == 0x2
printf "act-prio-normal\n"
else
printf "act-prio-low\n"
end
end
end
end
document etp-proc-state-int
%---------------------------------------------------------------------------
% etp-proc-state-int int
%
% Print state of process state value
%---------------------------------------------------------------------------
end
define etp-proc-state
# Args: Process*
#
set $state_int = *(((Uint32 *) &(((Process *) $arg0)->state)))
etp-proc-state-int $state_int
end
document etp-proc-state
%---------------------------------------------------------------------------
% etp-proc-state Process*
%
% Print state of process
%---------------------------------------------------------------------------
end
define etp-process-info
# Args: Process*
#
printf " Pid: "
set $etp_proc = ((Process*)$arg0)
etp-1 $etp_proc->common.id
printf "\n State: "
etp-proc-state $etp_proc
if $proxy_process != 0
printf " Pointer: (Process *) %p\n", $etp_proc
printf " *** PROXY process struct *** refer to: \n"
etp-pid2proc-1 $etp_proc->common.id
etp-process-info $proc
else
if (*(((Uint32 *) &($etp_proc->state))) & 0x4) == 0
if ($etp_proc->common.u.alive.reg)
printf " Registered name: "
etp-1 $etp_proc->common.u.alive.reg->name
printf "\n"
end
end
if ($etp_proc->current)
printf " Current function: "
etp-1 $etp_proc->current[0]
printf ":"
etp-1 $etp_proc->current[1]
printf "/%d\n", $etp_proc->current[2]
end
if ($etp_proc->cp)
printf " CP: "
etp-cp-1 $etp_proc->cp
printf "\n"
end
if ($etp_proc->i)
printf " I: "
etp-cp-1 $etp_proc->i
printf "\n"
end
printf " Heap size: %ld\n", $etp_proc->heap_sz
if ($etp_proc->old_heap)
printf " Old-heap size: %ld\n", $etp_proc->old_hend - $etp_proc->old_heap
end
printf " Mbuf size: %ld\n", $etp_proc->mbuf_sz
if (etp_smp_compiled)
printf " Msgq len: %ld (inner=%ld, outer=%ld)\n", ($etp_proc->msg.len + $etp_proc->msg_inq.len), $etp_proc->msg.len, $etp_proc->msg_inq.len
else
printf " Msgq len: %d\n", $etp_proc->msg.len
end
printf " Parent: "
etp-1 $etp_proc->parent
printf "\n Pointer: (Process *) %p\n", $etp_proc
end
end
document etp-process-info
%---------------------------------------------------------------------------
% etp-process-info Process*
%
% Print info about process
%---------------------------------------------------------------------------
end
define etp-processes
if (!erts_initialized)
printf "No processes, since system isn't initialized!\n"
else
set $proc_ix = 0
while $proc_ix < erts_proc.r.o.max
set $proc = (Process *) *((UWord *) &erts_proc.r.o.tab[$proc_ix])
if ($proc != ((Process *) 0) && $proc != &erts_invalid_process)
printf "---\n"
printf " Pix: %d\n", $proc_ix
etp-process-info $proc
end
set $proc_ix++
end
printf "---\n",
end
end
document etp-processes
%---------------------------------------------------------------------------
% etp-processes
%
% Print misc info about all processes
%---------------------------------------------------------------------------
end
define etp-processes-memory
if (!erts_initialized)
printf "No processes, since system isn't initialized!\n"
else
set $proc_ix = 0
printf "--- (%ld processes in wheel)\n", erts_proc.r.o.max
while $proc_ix < erts_proc.r.o.max
set $proc = (Process *) *((UWord *) &erts_proc.r.o.tab[$proc_ix])
if ($proc != ((Process *) 0) && $proc != &erts_invalid_process)
etp-process-memory-info $proc
end
set $proc_ix++
end
printf "---\n",
end
end
document etp-processes-memory
%---------------------------------------------------------------------------
% etp-processes-memory
%
% Print memory info about all processes
%---------------------------------------------------------------------------
end
define etp-process-memory-info
# Args: Process*
#
set $etp_pmem_proc = ((Process *) $arg0)
if ((*(((Uint32 *) &($etp_pmem_proc->state)))) & 0x400000)
set $proxy_process = 1
else
set $proxy_process = 0
end
printf " "
etp-1 $etp_pmem_proc->common.id
printf ": (Process *) %p ", $etp_pmem_proc
if $proxy_process != 0
printf "(Process *) %p ", $etp_pmem_proc
printf " *** PROXY process struct *** refer to next: \n"
etp-pid2proc-1 $etp_pmem_proc->common.id
printf " -"
etp-process-memory-info $proc
else
printf " [Heap: %5ld", $etp_pmem_proc->heap_sz
if ($etp_pmem_proc->old_heap)
printf " | %5ld", $etp_pmem_proc->old_hend - $etp_pmem_proc->old_heap
else
printf " | none "
end
printf "] [Mbuf: %5ld", $etp_pmem_proc->mbuf_sz
if (etp_smp_compiled)
printf " | %3ld (%3ld | %3ld)", ($etp_pmem_proc->msg.len + $etp_pmem_proc->msg_inq.len), $etp_pmem_proc->msg.len, $etp_pmem_proc->msg_inq.len
else
printf " | %3ld", $etp_pmem_proc->msg.len
end
printf "] "
if ($etp_pmem_proc->i)
printf " I: "
etp-cp-1 $etp_pmem_proc->i
printf " "
end
if ($etp_pmem_proc->current)
etp-1 $etp_pmem_proc->current[0]
printf ":"
etp-1 $etp_pmem_proc->current[1]
printf "/%d ", $etp_pmem_proc->current[2]
end
if (*(((Uint32 *) &(((Process *) $etp_pmem_proc)->state))) & 0x4) == 0
if ($etp_pmem_proc->common.u.alive.reg)
etp-1 $etp_pmem_proc->common.u.alive.reg->name
printf " "
end
end
if ($etp_pmem_proc->cp)
printf " CP: "
etp-cp-1 $etp_pmem_proc->cp
printf " "
end
printf "\n"
end
end
document etp-process-memory-info
%---------------------------------------------------------------------------
% etp-process-memory-info Process*
%
% Print memory info about process
%---------------------------------------------------------------------------
end
define etp-port-id2pix-1
# Args: Eterm
#
if (etp_arch_bits == 64)
if (etp_big_endian)
set $etp_pix = (int) (((Uint64) $arg0) & 0x0fffffff)
elser
set $etp_pix = (int) ((((Uint64) $arg0) >> 32) & 0x0fffffff)
end
else
set $etp_pix = (int) ((((Uint32) $arg0) >> 4) & erts_port.r.o.pix_mask)
end
end
define etp-pix2port
# Args: Eterm
#
set $port = (Port *) *((UWord *) &erts_port.r.o.tab[((int) $arg0)])
printf "(Port *) %p\n", $port
end
define etp-id2port-1
# Args: Eterm
#
etp-port-id2pix-1 $arg0
set $port = (Port *) *((UWord *) &erts_port.r.o.tab[((int) $etp_pix)])
end
define etp-id2port
# Args: Eterm
#
etp-id2port-1 $arg0
printf "(Port *) %p\n", $port
end
define etp-port-sched-flags-int
# Args: int
#
if ($arg0 & 0x1)
printf " in-run-queue"
end
if ($arg0 & 0x2)
printf " executing"
end
if ($arg0 & 0x4)
printf " have-tasks"
end
if ($arg0 & 0x8)
printf " exited"
end
if ($arg0 & 0x10)
printf " busy-port"
end
if ($arg0 & 0x20)
printf " busy-port-q"
end
if ($arg0 & 0x40)
printf " chk-unset-busy-port-q"
end
if ($arg0 & 0x80)
printf " have-busy-tasks"
end
if ($arg0 & 0x100)
printf " have-nosuspend-tasks"
end
if ($arg0 & 0x200)
printf " parallelism"
end
if ($arg0 & 0x400)
printf " force-sched"
end
if ($arg0 & 0xfffff800)
printf " GARBAGE"
end
printf "\n"
end
document etp-port-sched-flags-int
%---------------------------------------------------------------------------
% etp-proc-sched-flags-int int
%
% Print port sched-flags
%---------------------------------------------------------------------------
end
define etp-port-sched-flags
# Args: Port*
#
set $sched_flags_int = *(((Uint32 *) &(((Port *) $arg0)->sched.flags)))
etp-port-sched-flags-int $sched_flags_int
end
document etp-port-sched-flags
%---------------------------------------------------------------------------
% etp-proc-sched-flags-int Port *
%
% Print port sched-flags
%---------------------------------------------------------------------------
end
define etp-port-state-int
# Args: int
#
if ($arg0 & 0x1)
printf " connected"
end
if ($arg0 & 0x2)
printf " exiting"
end
if ($arg0 & 0x4)
printf " distribution"
end
if ($arg0 & 0x8)
printf " binary-io"
end
if ($arg0 & 0x10)
printf " soft-eof"
end
if ($arg0 & 0x20)
printf " closing"
end
if ($arg0 & 0x40)
printf " send-closed"
end
if ($arg0 & 0x80)
printf " linebuf-io"
end
if ($arg0 & 0x100)
printf " free"
end
if ($arg0 & 0x200)
printf " initializing"
end
if ($arg0 & 0x400)
printf " port-specific-lock"
end
if ($arg0 & 0x800)
printf " invalid"
end
if ($arg0 & 0x1000)
printf " halt"
end
if (etp_debug_compiled)
if ($arg0 & 0x7fffe000)
printf " GARBAGE"
end
else
if ($arg0 & 0xffffe000)
printf " GARBAGE"
end
end
printf "\n"
end
document etp-port-state-int
%---------------------------------------------------------------------------
% etp-proc-state-int int
%
% Print port state
%---------------------------------------------------------------------------
end
define etp-port-state
# Args: Port*
#
set $state_int = *(((Uint32 *) &(((Port *) $arg0)->state)))
etp-port-state-int $state_int
end
document etp-port-state
%---------------------------------------------------------------------------
% etp-proc-state-int Port *
%
% Print port state
%---------------------------------------------------------------------------
end
define etp-port-info
# Args: Port*
#
printf " Port: "
set $etp_pinfo_port = ((Port*)$arg0)
etp-1 $etp_pinfo_port->common.id
printf "\n Name: %s\n", $etp_pinfo_port->name
printf " State:"
etp-port-state $etp_pinfo_port
printf " Scheduler flags:"
etp-port-sched-flags $etp_pinfo_port
if (*(((Uint32 *) &($etp_pinfo_port->state))) & 0x5C00) == 0
if ($etp_pinfo_port->common.u.alive.reg)
printf " Registered name: "
etp-1 $etp_pinfo_port->common.u.alive.reg->name
printf "\n"
end
end
printf " Connected: "
set $connected = *(((Eterm *) &(((Port *) $etp_pinfo_port)->connected)))
etp-1 $connected
printf "\n Pointer: (Port *) %p\n", $etp_pinfo_port
end
document etp-port-info
%---------------------------------------------------------------------------
% etp-port-info Port*
%
% Print info about port
%---------------------------------------------------------------------------
end
define etp-ports
if (!erts_initialized)
printf "No ports, since system isn't initialized!\n"
else
set $port_ix = 0
while $port_ix < erts_port.r.o.max
set $port = (Port *) *((UWord *) &erts_port.r.o.tab[$port_ix])
if ($port != ((Port *) 0) && $port != &erts_invalid_port)
if (*(((Uint32 *) &(((Port *) $port)->state))) & 0x100) == 0
# I.e, not free
printf "---\n"
printf " Pix: %d\n", $port_ix
etp-port-info $port
end
end
set $port_ix++
end
printf "---\n",
end
end
document etp-ports
%---------------------------------------------------------------------------
% etp-ports
%
% Print misc info about all ports
%---------------------------------------------------------------------------
end
define etp-rq-flags-int
# Args: int
#
if ($arg0 & 0x1f)
printf " Queue Mask:"
if ($arg0 & 0x1)
printf " max"
end
if ($arg0 & 0x2)
printf " high"
end
if ($arg0 & 0x4)
printf " normal"
end
if ($arg0 & 0x8)
printf " low"
end
if ($arg0 & 0x10)
printf " ports"
end
printf "\n"
end
if ($arg0 & 0x3fe0)
printf " Emigrate Mask:"
if ($arg0 & 0x20)
printf " max"
end
if ($arg0 & 0x40)
printf " high"
end
if ($arg0 & 0x80)
printf " normal"
end
if ($arg0 & 0x100)
printf " low"
end
if ($arg0 & 0x200)
printf " ports"
end
printf "\n"
end
if ($arg0 & 0x7fc00)
printf " Immigrate Mask:"
if ($arg0 & 0x400)
printf " max"
end
if ($arg0 & 0x800)
printf " high"
end
if ($arg0 & 0x1000)
printf " normal"
end
if ($arg0 & 0x2000)
printf " low"
end
if ($arg0 & 0x4000)
printf " ports"
end
printf "\n"
end
if ($arg0 & 0xf8000)
printf " Evaquate Mask:"
if ($arg0 & 0x8000)
printf " max"
end
if ($arg0 & 0x10000)
printf " high"
end
if ($arg0 & 0x20000)
printf " normal"
end
if ($arg0 & 0x40000)
printf " low"
end
if ($arg0 & 0x80000)
printf " ports"
end
printf "\n"
end
if ($arg0 & ~0xfffff)
printf " Misc Flags:"
if ($arg0 & 0x100000)
printf " out-of-work"
end
if ($arg0 & 0x200000)
printf " halftime-out-of-work"
end
if ($arg0 & 0x400000)
printf " suspended"
end
if ($arg0 & 0x800000)
printf " check-cpu-bind"
end
if ($arg0 & 0x1000000)
printf " inactive"
end
if ($arg0 & 0x2000000)
printf " non-empty"
end
if ($arg0 & 0x4000000)
printf " protected"
end
if ($arg0 & ~0x7ffffff)
printf " GARBAGE(0x%x)", ($arg0 & ~0x3ffffff)
end
printf "\n"
end
end
document etp-rq-flags-int
%---------------------------------------------------------------------------
% etp-rq-flags-int
%
% Print run queue flags
%---------------------------------------------------------------------------
end
define etp-ssi-flags
# Args: int
#
if ($arg0 & 0x1)
printf " sleeping"
end
if ($arg0 & 0x2)
printf " poll"
end
if ($arg0 & 0x4)
printf " tse"
end
if ($arg0 & 0x8)
printf " waiting"
end
if ($arg0 & 0x10)
printf " suspended"
end
printf "\n"
end
document etp-ssi-flags
%---------------------------------------------------------------------------
% etp-ssi-flags
% Arg int
%
% Print aux work flags
%---------------------------------------------------------------------------
end
define etp-aux-work-flags
# Args: int
#
if ($arg0 & 0x1)
printf " delayed-dealloc"
end
if ($arg0 & 0x2)
printf " delayed-dealloc-thr-prgr"
end
if ($arg0 & 0x4)
printf " fix-alloc-dealloc"
end
if ($arg0 & 0x8)
printf " fix-alloc-lower-lim"
end
if ($arg0 & 0x10)
printf " async-ready"
end
if ($arg0 & 0x20)
printf " async-ready-clean"
end
if ($arg0 & 0x40)
printf " misc-work-thr-prgr"
end
if ($arg0 & 0x80)
printf " misc-work"
end
if ($arg0 & 0x100)
printf " check-children"
end
if ($arg0 & 0x200)
printf " set-tmo"
end
if ($arg0 & 0x400)
printf " mseg-cached-check"
end
if ($arg0 & ~0x7ff)
printf " GARBAGE"
end
printf "\n"
end
document etp-aux-work-flags
%---------------------------------------------------------------------------
% etp-aux-work-flags
% Arg int
%
% Print aux work flags
%---------------------------------------------------------------------------
end
define etp-schedulers
if (!erts_initialized)
printf "No schedulers, since system isn't initialized!\n"
else
set $sched_ix = 0
while $sched_ix < erts_no_schedulers
printf "--- Scheduler %d ---\n", $sched_ix+1
printf " IX: %d\n", $sched_ix
if (erts_aligned_scheduler_data[$sched_ix].esd.cpu_id < 0)
printf " CPU Binding: unbound\n"
else
printf " CPU Binding: %d\n", erts_aligned_scheduler_data[$sched_ix].esd.cpu_id
end
printf " Aux work Flags:"
set $aux_work_flags = *((Uint32 *) &erts_aligned_scheduler_data[$sched_ix].esd.ssi->aux_work)
etp-aux-work-flags $aux_work_flags
printf " Sleep Info Flags:"
set $ssi_flags = *((Uint32 *) &erts_aligned_scheduler_data[$sched_ix].esd.ssi->flags)
etp-ssi-flags $ssi_flags
printf " Pointer: (ErtsSchedulerData *) %p\n", &erts_aligned_scheduler_data[$sched_ix].esd
printf " - Run Queue -\n"
if (etp_smp_compiled)
set $runq = erts_aligned_scheduler_data[$sched_ix].esd.run_queue
else
set $runq = &erts_aligned_run_queues[0].runq
end
printf " Length: total=%d", *((Uint32 *) &($runq->len))
printf ", max=%d", *((Uint32 *) &($runq->procs.prio_info[0].len))
printf ", high=%d", *((Uint32 *) &($runq->procs.prio_info[1].len))
printf ", normal=%d", *((Uint32 *) &($runq->procs.prio_info[2].len))
printf ", low=%d", *((Uint32 *) &($runq->procs.prio_info[3].len))
printf ", port=%d\n", *((Uint32 *) &($runq->ports.info.len))
if ($runq->misc.start)
printf " Misc Jobs: yes\n"
else
printf " Misc Jobs: no\n"
end
set $rq_flags = *((Uint32 *) &($runq->flags))
etp-rq-flags-int $rq_flags
printf " Pointer: (ErtsRunQueue *) %p\n", $runq
set $sched_ix++
end
printf "-------------------\n",
end
end
document etp-schedulers
%---------------------------------------------------------------------------
% etp-schedulers
%
% Print misc info about all schedulers
%---------------------------------------------------------------------------
end
define etp-migration-info
set $minfo = (ErtsMigrationPaths *) *((UWord *) &erts_migration_paths)
set $rq_ix = 0
while $rq_ix < erts_no_run_queues
if ($minfo->mpath[$rq_ix])
printf "---\n"
printf "Run Queue Ix: %d\n", $rq_ix
etp-rq-flags-int $minfo->mpath[$rq_ix].flags
end
set $rq_ix++
end
end
document etp-migration-info
%---------------------------------------------------------------------------
% etp-migration-info
%
% Print migration information
%---------------------------------------------------------------------------
end
define etp-system-info
printf "--------------- System Information ---------------\n"
printf "OTP release: %s\n", etp_otp_release
printf "ERTS version: %s\n", etp_erts_version
printf "Compile date: %s\n", etp_compile_date
printf "Arch: %s\n", etp_arch
printf "Endianness: "
if (etp_big_endian)
printf "Big\n"
else
printf "Little\n"
end
printf "Word size: %d-bit\n", etp_arch_bits
printf "HiPE support: "
if (etp_hipe)
printf "yes\n"
else
printf "no\n"
end
if (etp_smp_compiled)
printf "SMP support: yes\n"
else
printf "SMP support: no\n"
end
printf "Thread support: "
if (etp_thread_compiled)
printf "yes\n"
else
printf "no\n"
end
printf "Kernel poll: "
if (etp_kernel_poll_support)
if (!erts_initialized)
printf "Supported\n"
else
if (erts_use_kernel_poll)
printf "Supported and used\n"
else
printf "Supported but not used\n"
end
end
else
printf "No support\n"
end
printf "Debug compiled: "
if (etp_debug_compiled)
printf "yes\n"
else
printf "no\n"
end
printf "Lock checking: "
if (etp_lock_check)
printf "yes\n"
else
printf "no\n"
end
printf "Lock counting: "
if (etp_lock_count)
printf "yes\n"
else
printf "no\n"
end
if (!erts_initialized)
printf "System not initialized\n"
else
printf "Node name: "
etp-1 erts_this_node->sysname
printf "\n"
printf "Number of schedulers: %d\n", erts_no_schedulers
printf "Number of async-threads: %d\n", erts_async_max_threads
end
printf "--------------------------------------------------\n"
end
document etp-system-info
%---------------------------------------------------------------------------
% etp-system-info
%
% Print general information about the system
%---------------------------------------------------------------------------
end
define etp-compile-info
printf "--------------- Compile Information ---------------\n"
printf "CFLAGS: %s\n", erts_build_flags_CFLAGS
printf "LDFLAGS: %s\n", erts_build_flags_LDFLAGS
printf "Use etp-config-h-info to dump config.h\n"
end
document etp-compile-info
%---------------------------------------------------------------------------
% etp-compile-info
%
% Print information about how the system was compiled
%---------------------------------------------------------------------------
end
define etp-config-h-info
printf "%s", erts_build_flags_CONFIG_H
end
document etp-config-h-info
%---------------------------------------------------------------------------
% etp-config-h-info
%
% Dump the contents of config.h when the system was compiled
%---------------------------------------------------------------------------
end
define etp-dictdump
# Args: ProcDict*
#
# Non-reentrant
#
set $etp_dictdump = ($arg0)
if $etp_dictdump
set $etp_dictdump_n = \
$etp_dictdump->homeSize + $etp_dictdump->splitPosition
set $etp_dictdump_i = 0
set $etp_dictdump_written = 0
if $etp_dictdump_n > $etp_dictdump->size
set $etp_dictdump_n = $etp_dictdump->size
end
set $etp_dictdump_cnt = $etp_dictdump->numElements
printf "%% Dictionary (%d):\n[", $etp_dictdump_cnt
while $etp_dictdump_i < $etp_dictdump_n && \
$etp_dictdump_cnt > 0
set $etp_dictdump_p = $etp_dictdump->data[$etp_dictdump_i]
if $etp_dictdump_p != $etp_nil
if ((Eterm)$etp_dictdump_p & 0x3) == 0x2
# Boxed
if $etp_dictdump_written
printf ",\n "
else
set $etp_dictdump_written = 1
end
etp-1 $etp_dictdump_p 0
set $etp_dictdump_cnt--
else
while ((Eterm)$etp_dictdump_p & 0x3) == 0x1 && \
$etp_dictdump_cnt > 0
# Cons ptr
if $etp_dictdump_written
printf ",\n "
else
set $etp_dictdump_written = 1
end
etp-1 (((Eterm*)((Eterm)$etp_dictdump_p&~0x3))[0]) 0
set $etp_dictdump_cnt--
set $etp_dictdump_p = ((Eterm*)((Eterm)$etp_dictdump_p & ~0x3))[1]
end
if $etp_dictdump_p != $etp_nil
printf "#DictSlotError<%d>:", $etp_dictdump_i
set $etp_dictdump_flat = $etp_flat
set $etp_flat = 1
etp-1 ((Eterm)$etp_dictdump_p) 0
set $etp_flat = $etp_dictdump_flat
end
end
end
set $etp_dictdump_i++
end
if $etp_dictdump_cnt != 0
printf "#DictCntError<%d>, ", $etp_dictdump_cnt
end
else
printf "%% Dictionary (0):\n["
end
printf "].\n"
end
document etp-dictdump
%---------------------------------------------------------------------------
% etp-dictdump ErlProcDict*
%
% Take an ErlProcDict* and print all entries in the process dictionary.
%---------------------------------------------------------------------------
end
define etpf-dictdump
# Args: ErlProcDict*
#
# Non-reentrant
#
set $etp_flat = 1
etp-dictdump ($arg0)
set $etp_flat = 0
end
document etpf-dictdump
%---------------------------------------------------------------------------
% etpf-dictdump ErlProcDict*
%
% Same as etp-dictdump but print the values using etpf (flat).
%---------------------------------------------------------------------------
end
define etp-offheapdump
# Args: ( ExternalThing* | ProcBin* | ErlFunThing* )
#
# Non-reentrant
#
set $etp_offheapdump_p = ($arg0)
set $etp_offheapdump_i = 0
set $etp_offheapdump_
printf "%% Offheap dump:\n["
while ($etp_offheapdump_p != 0) && ($etp_offheapdump_i < $etp_max_depth)
if ((Eterm)$etp_offheapdump_p & 0x3) == 0x0
if $etp_offheapdump_i > 0
printf ",\n "
end
etp-1 ((Eterm)$etp_offheapdump_p|0x2) 0
set $etp_offheapdump_p = $etp_offheapdump_p->next
set $etp_offheapdump_i++
else
printf "#TaggedPtr<%#x>", $etp_offheapdump_p
set $etp_offheapdump_p = 0
end
end
printf "].\n"
end
document etp-offheapdump
%---------------------------------------------------------------------------
% etp-offheapdump ( ExternalThing* | ProcBin* | ErlFunThing* )
%
% Take an pointer to a linked list and print the terms in the list
% up to the max depth.
%---------------------------------------------------------------------------
end
define etpf-offheapdump
# Args: ( ExternalThing* | ProcBin* | ErlFunThing* )
#
# Non-reentrant
#
set $etp_flat = 1
etp-offheapdump ($arg0)
set $etp_flat = 0
end
document etpf-offheapdump
%---------------------------------------------------------------------------
% etpf-offheapdump ( ExternalThing* | ProcBin* | ErlFunThing* )
%
% Same as etp-offheapdump but print the values using etpf (flat).
%---------------------------------------------------------------------------
end
define etp-search-heaps
# Args: Eterm
#
# Non-reentrant
#
printf "%% Search all (<%u) process heaps for ", erts_max_processes
set $etp_flat = 1
etp-1 ($arg0) 0
set $etp_flat = 0
printf ":...\n"
etp-search-heaps-1 ((Eterm*)((Eterm)($arg0)&~3))
end
define etp-search-heaps-1
# Args: Eterm*
#
# Non-reentrant
#
set $etp_search_heaps_q = erts_max_processes / 10
set $etp_search_heaps_r = erts_max_processes % 10
set $etp_search_heaps_t = 10
set $etp_search_heaps_m = $etp_search_heaps_q
if $etp_search_heaps_r > 0
set $etp_search_heaps_m++
set $etp_search_heaps_r--
end
set $etp_search_heaps_i = 0
set $etp_search_heaps_found = 0
while $etp_search_heaps_i < erts_proc.r.o.max
set $proc = (Process *) *((UWord *) &erts_proc.r.o.tab[$proc_ix])
if $proc
if ($proc->heap <= ($arg0)) && \
(($arg0) < $proc->hend)
printf "process_tab[%d]->heap+%d\n", $etp_search_heaps_i, \
($arg0)-$proc->heap
end
if ($proc->old_heap <= ($arg0)) && \
(($arg0) <= $proc->old_hend)
printf "process_tab[%d]->old_heap+%d\n", $etp_search_heaps_i, \
($arg0)-$proc->old_heap
end
set $etp_search_heaps_cnt = 0
set $etp_search_heaps_p = $proc->mbuf
while $etp_search_heaps_p && ($etp_search_heaps_cnt < $etp_max_depth)
set $etp_search_heaps_cnt++
if (&($etp_search_heaps_p->mem) <= ($arg0)) && \
(($arg0) < &($etp_search_heaps_p->mem)+$etp_search_heaps_p->size)
printf "process_tab[%d]->mbuf(%d)+%d\n", \
$etp_search_heaps_i, $etp_search_heaps_cnt, \
($arg0)-&($etp_search_heaps_p->mem)
end
set $etp_search_heaps_p = $etp_search_heaps_p->next
end
if $etp_search_heaps_p
printf "Process ix=%d %% Too many HeapFragments\n", \
$etp_search_heaps_i
end
end
set $etp_search_heaps_i++
if $etp_search_heaps_i > $etp_search_heaps_m
printf "%% %d%%...\n", $etp_search_heaps_t
set $etp_search_heaps_t += 10
set $etp_search_heaps_m += $etp_search_heaps_q
if $etp_search_heaps_r > 0
set $etp_search_heaps_m++
set $etp_search_heaps_r--
end
end
end
printf "%% 100%%.\n"
end
document etp-search-heaps
%---------------------------------------------------------------------------
% etp-search-heaps Eterm
%
% Search all process heaps in process_tab[], including the heap fragments
% (process_tab[]->mbuf) for the specified Eterm.
%---------------------------------------------------------------------------
end
define etp-search-alloc
# Args: Eterm
#
# Non-reentrant
#
printf "%% Search allocated memory blocks for "
set $etp_flat = 1
etp-1 ($arg0) 0
set $etp_flat = 0
printf ":...\n"
set $etp_search_alloc_n = sizeof(erts_allctrs) / sizeof(*erts_allctrs)
set $etp_search_alloc_i = 0
while $etp_search_alloc_i < $etp_search_alloc_n
if erts_allctrs[$etp_search_alloc_i].alloc
set $etp_search_alloc_f = (erts_allctrs+$etp_search_alloc_i)
while ($etp_search_alloc_f->alloc == debug_alloc) || \
($etp_search_alloc_f->alloc == stat_alloc) || \
($etp_search_alloc_f->alloc == map_stat_alloc)
set $etp_search_alloc_f = \
(ErtsAllocatorFunctions_t*)$etp_search_alloc_f->extra
end
if ($etp_search_alloc_f->alloc != erts_sys_alloc) && \
($etp_search_alloc_f->alloc != erts_fix_alloc)
if ($etp_search_alloc_f->alloc == erts_alcu_alloc) || \
($etp_search_alloc_f->alloc == erts_alcu_alloc_ts)
# alcu alloc
set $etp_search_alloc_e = (Allctr_t*)$etp_search_alloc_f->extra
# mbc_list
set $etp_search_alloc_p = $etp_search_alloc_e->mbc_list.first
set $etp_search_alloc_cnt = 0
while $etp_search_alloc_p && \
($etp_search_alloc_cnt < $etp_max_depth)
set $etp_search_alloc_cnt++
if $etp_search_alloc_p <= ($arg0) && \
($arg0) < (char*)$etp_search_alloc_p + \
($etp_search_alloc_p->chdr & (Uint)~7)
printf "erts_allctrs[%d] %% %salloc: mbc_list: %d\n", \
$etp_search_alloc_i, $etp_search_alloc_e->name_prefix, \
$etp_search_alloc_cnt
end
if $etp_search_alloc_p == $etp_search_alloc_e->mbc_list.last
if $etp_search_alloc_p->next
printf \
"erts_allctrs[%d] %% %salloc: mbc_list.last error %p\n",\
$etp_search_alloc_i, $etp_search_alloc_e->name_prefix,\
$etp_search_alloc_p
end
set $etp_search_alloc_p = 0
else
set $etp_search_alloc_p = $etp_search_alloc_p->next
end
end
if $etp_search_alloc_p
printf "erts_allctrs[%d] %% %salloc: too large mbc_list %p\n", \
$ept_search_alloc_i, $etp_search_alloc_e->name_prefix,
$ept_search_alloc_p
end
# sbc_list
set $etp_search_alloc_p = $etp_search_alloc_e->sbc_list.first
set $etp_search_alloc_cnt = 0
while $etp_search_alloc_p && \
($etp_search_alloc_cnt < $etp_max_depth)
set $etp_search_alloc_cnt++
if $etp_search_alloc_p <= ($arg0) && \
($arg0) < (char*)$etp_search_alloc_p + \
($etp_search_alloc_p->chdr & (Uint)~7)
printf "erts_allctrs[%d] %% %salloc: sbc_list: %d\n", \
$etp_search_alloc_i, $etp_search_alloc_e->name_prefix, \
$etp_search_alloc_cnt
end
if $etp_search_alloc_p == $etp_search_alloc_e->sbc_list.last
if $etp_search_alloc_p->next
printf \
"erts_allctrs[%d] %% %salloc: sbc_list.last error %p",\
$etp_search_alloc_i, $etp_search_alloc_e->name_prefix,\
$etp_search_alloc_p
end
set $etp_search_alloc_p = 0
else
set $etp_search_alloc_p = $etp_search_alloc_p->next
end
end
if $etp_search_alloc_p
printf "erts_allctrs[%d] %% %salloc: too large sbc_list %p\n", \
$ept_search_alloc_i, $etp_search_alloc_e->name_prefix,
$ept_search_alloc_p
end
else
printf "erts_allctrs[%d] %% %s: unknown allocator\n", \
$etp_search_alloc_i, erts_alc_a2ad[$etp_search_alloc_i]
end
end
end
set $etp_search_alloc_i++
end
end
document etp-search-alloc
%---------------------------------------------------------------------------
% etp-search-heaps Eterm
%
% Search all internal allocator memory blocks for for the specified Eterm.
%---------------------------------------------------------------------------
end
define etp-alloc-stats
printf "\nIx Name Inst. Blocks Bytes Carriers Crr.bytes Util\n"
set $etp_tot_block_no = 0
set $etp_tot_block_sz = 0
set $etp_tot_crr_no = 0
set $etp_tot_crr_sz = 0
set $etp_ERTS_ALC_A_MIN = 1
set $etp_ERTS_ALC_A_MAX = (sizeof(erts_allctrs) / sizeof(*erts_allctrs)) - 1
set $etp_ix = $etp_ERTS_ALC_A_MIN
while $etp_ix <= $etp_ERTS_ALC_A_MAX
set $etp_allctr = 0
set $etp_alloc = erts_allctrs[$etp_ix].alloc
if $etp_alloc != erts_sys_alloc
if $etp_alloc == erts_alcu_alloc_thr_spec || \
$etp_alloc == erts_alcu_alloc_thr_pref
set $etp_instance = 0
set $etp_block_no = 0
set $etp_block_sz = 0
set $etp_crr_no = 0
set $etp_crr_sz = 0
set $etp_tspec = (ErtsAllocatorThrSpec_t *) erts_allctrs[$etp_ix].extra
if $etp_tspec->enabled
while $etp_instance < $etp_tspec->size
set $etp_allctr = $etp_tspec->allctr[$etp_instance]
set $etp_block_no = $etp_block_no + $etp_allctr->mbcs.blocks.curr.no \
+ $etp_allctr->sbcs.blocks.curr.no
set $etp_block_sz = $etp_block_sz + $etp_allctr->mbcs.blocks.curr.size \
+ $etp_allctr->sbcs.blocks.curr.size
set $etp_crr_no = $etp_crr_no + $etp_allctr->mbcs.curr.norm.mseg.no \
+ $etp_allctr->sbcs.curr.norm.mseg.no \
+ $etp_allctr->mbcs.curr.norm.sys_alloc.no \
+ $etp_allctr->sbcs.curr.norm.sys_alloc.no
set $etp_crr_sz = $etp_crr_sz + $etp_allctr->mbcs.curr.norm.mseg.size \
+ $etp_allctr->sbcs.curr.norm.mseg.size \
+ $etp_allctr->mbcs.curr.norm.sys_alloc.size \
+ $etp_allctr->sbcs.curr.norm.sys_alloc.size
set $etp_instance = $etp_instance + 1
end
else
printf "erts_allctr[%d]: Disabled (thread specific)\n", $etp_ix
end
else
if $etp_alloc == erts_alcu_alloc_ts || $etp_alloc == erts_alcu_alloc
set $etp_allctr = (Allctr_t*) erts_allctrs[$etp_ix].extra
set $etp_block_no = $etp_allctr->mbcs.blocks.curr.no \
+ $etp_allctr->sbcs.blocks.curr.no
set $etp_block_sz = $etp_allctr->mbcs.blocks.curr.size \
+ $etp_allctr->sbcs.blocks.curr.size
set $etp_crr_no = $etp_allctr->mbcs.curr.norm.mseg.no \
+ $etp_allctr->sbcs.curr.norm.mseg.no \
+ $etp_allctr->mbcs.curr.norm.sys_alloc.no \
+ $etp_allctr->sbcs.curr.norm.sys_alloc.no
set $etp_crr_sz = $etp_allctr->mbcs.curr.norm.mseg.size \
+ $etp_allctr->sbcs.curr.norm.mseg.size \
+ $etp_allctr->mbcs.curr.norm.sys_alloc.size \
+ $etp_allctr->sbcs.curr.norm.sys_alloc.size
set $etp_instance = 1
else
printf "erts_allctr[%d]: Unknown allocation function: ", $etp_ix
p $etp_alloc
end
end
end
if $etp_allctr != 0
printf "%2d %-8s%2d%12lu%13lu%12lu%13lu", $etp_ix, $etp_allctr->name_prefix, \
$etp_instance, \
$etp_block_no, $etp_block_sz, $etp_crr_no, $etp_crr_sz
if $etp_crr_sz != 0
printf "%5lu%%", ($etp_block_sz * 100) / $etp_crr_sz
end
printf "\n"
set $etp_tot_block_no = $etp_tot_block_no + $etp_block_no
set $etp_tot_block_sz = $etp_tot_block_sz + $etp_block_sz
set $etp_tot_crr_no = $etp_tot_crr_no + $etp_crr_no
set $etp_tot_crr_sz = $etp_tot_crr_sz + $etp_crr_sz
end
set $etp_ix = $etp_ix + 1
end
printf "\nTotal: %12lu%13lu%12lu%13lu", $etp_tot_block_no, $etp_tot_block_sz, \
$etp_tot_crr_no, $etp_tot_crr_sz
if $etp_tot_crr_sz != 0
printf "%5lu%%", ($etp_tot_block_sz * 100) / $etp_tot_crr_sz
end
printf "\n"
end
document etp-alloc-stats
%---------------------------------------------------------------------------
% etp-alloc-stats
%
% Combine and print allocator statistics
%---------------------------------------------------------------------------
end
define etp-alloc-instances
set $etp_ERTS_ALC_A_MIN = 1
set $etp_ERTS_ALC_A_MAX = (sizeof(erts_allctrs) / sizeof(*erts_allctrs)) - 1
set $etp_ix = $arg0
if $etp_ix >= $etp_ERTS_ALC_A_MIN && $etp_ix <= $etp_ERTS_ALC_A_MAX
set $etp_allctr = 0
set $etp_alloc = erts_allctrs[$etp_ix].alloc
if $etp_alloc == erts_sys_alloc
printf "Allocator %d is sys_alloc\n", $etp_ix
else
if $etp_alloc == erts_alcu_alloc_thr_spec || \
$etp_alloc == erts_alcu_alloc_thr_pref
set $etp_instance = 0
set $etp_tspec = (ErtsAllocatorThrSpec_t *) erts_allctrs[$etp_ix].extra
if $etp_tspec->enabled
printf "All instances for allocator '%s'\n", $etp_tspec->allctr[0]->name_prefix
while $etp_instance < $etp_tspec->size
p $etp_tspec->allctr[$etp_instance]
set $etp_instance = $etp_instance + 1
end
else
printf "erts_allctr[%d]: Disabled (thread specific)\n", $etp_ix
end
else
if $etp_alloc == erts_alcu_alloc_ts || $etp_alloc == erts_alcu_alloc
set $etp_allctr = (Allctr_t*) erts_allctrs[$etp_ix].extra
printf "Single instances for allocator '%s'\n", $etp_allctr->name_prefix
p $etp_allctr
else
printf "erts_allctr[%d]: Unknown allocation function: ", $etp_ix
p $etp_alloc
end
end
end
else
printf "Allocator type not between %d and %d\n", $etp_ERTS_ALC_A_MIN, $etp_ERTS_ALC_A_MAX
end
end
document etp-alloc-instances
%---------------------------------------------------------------------------
% etp-alloc-instances
%
% Print pointers to all allocator instances for a specific type (Ix)
%---------------------------------------------------------------------------
end
define etp-overlapped-heaps
# Args:
#
# Non-reentrant
#
printf "%% Dumping heap addresses to \"etp-commands.bin\"\n"
set $etp_overlapped_heaps_q = erts_max_processes / 10
set $etp_overlapped_heaps_r = erts_max_processes % 10
set $etp_overlapped_heaps_t = 10
set $etp_overlapped_heaps_m = $etp_overlapped_heaps_q
if $etp_overlapped_heaps_r > 0
set $etp_overlapped_heaps_m++
set $etp_overlapped_heaps_r--
end
set $etp_overlapped_heaps_i = 0
set $etp_overlapped_heaps_found = 0
dump binary value etp-commands.bin 'o'
append binary value etp-commands.bin 'v'
append binary value etp-commands.bin 'e'
append binary value etp-commands.bin 'r'
append binary value etp-commands.bin 'l'
append binary value etp-commands.bin 'a'
append binary value etp-commands.bin 'p'
append binary value etp-commands.bin 'p'
append binary value etp-commands.bin 'e'
append binary value etp-commands.bin 'd'
append binary value etp-commands.bin '-'
append binary value etp-commands.bin 'h'
append binary value etp-commands.bin 'e'
append binary value etp-commands.bin 'a'
append binary value etp-commands.bin 'p'
append binary value etp-commands.bin 's'
append binary value etp-commands.bin '\0'
while $etp_overlapped_heaps_i < erts_max_processes
if process_tab[$etp_overlapped_heaps_i]
append binary value etp-commands.bin \
(Eterm)$etp_overlapped_heaps_i
append binary value etp-commands.bin \
(Eterm)process_tab[$etp_overlapped_heaps_i]->heap
append binary value etp-commands.bin \
(Eterm)process_tab[$etp_overlapped_heaps_i]->hend
append binary value etp-commands.bin \
(Eterm)process_tab[$etp_overlapped_heaps_i]->old_heap
append binary value etp-commands.bin \
(Eterm)process_tab[$etp_overlapped_heaps_i]->old_hend
set $etp_overlapped_heaps_p = process_tab[$etp_overlapped_heaps_i]->mbuf
set $etp_overlapped_heaps_cnt = 0
while $etp_overlapped_heaps_p && \
($etp_overlapped_heaps_cnt < $etp_max_depth)
set $etp_overlapped_heaps_cnt++
append binary value etp-commands.bin \
(Eterm)$etp_overlapped_heaps_p
append binary value etp-commands.bin \
(Eterm)(&($etp_overlapped_heaps_p->mem)+$etp_overlapped_heaps_p->size)
set $etp_overlapped_heaps_p = $etp_overlapped_heaps_p->next
end
if $etp_overlapped_heaps_p
printf "process_tab[%d] %% Too many HeapFragments\n", \
$etp_overlapped_heaps_i
end
append binary value etp-commands.bin (Eterm)0x0
append binary value etp-commands.bin (Eterm)0x0
end
set $etp_overlapped_heaps_i++
if $etp_overlapped_heaps_i > $etp_overlapped_heaps_m
printf "%% %d%%...\n", $etp_overlapped_heaps_t
set $etp_overlapped_heaps_t += 10
set $etp_overlapped_heaps_m += $etp_overlapped_heaps_q
if $etp_overlapped_heaps_r > 0
set $etp_overlapped_heaps_m++
set $etp_overlapped_heaps_r--
end
end
end
etp-run
end
document etp-overlapped-heaps
%---------------------------------------------------------------------------
% etp-overlapped-heaps
%
% Dump all process heap addresses in process_tab[], including
% the heap fragments in binary format on the file etp-commands.bin.
% Then call etp_commands:file/1 to analyze if any heaps overlap.
%
% Requires 'erl' in the path and 'etp_commands.beam' in 'erl's search path.
%---------------------------------------------------------------------------
end
define etp-chart
# Args: Process*
#
# Non-reentrant
etp-chart-start ($arg0)
set ($arg0) = ($arg0)
etp-msgq (($arg0)->msg)
etp-stackdump ($arg0)
etp-dictdump (($arg0)->dictionary)
etp-dictdump (($arg0)->debug_dictionary)
printf "%% Dumping other process data...\n"
etp ($arg0)->seq_trace_token
etp ($arg0)->fvalue
printf "%% Dumping done.\n"
etp-chart-print
end
document etp-chart
%---------------------------------------------------------------------------
% etp-chart Process*
%
% Dump all process data to the file "etp-commands.bin" and then use
% the Erlang support module to print a memory chart of all terms.
%---------------------------------------------------------------------------
end
define etp-chart-start
# Args: Process*
#
# Non-reentrant
set $etp_chart = 1
set $etp_chart_id = 0
set $etp_chart_start_p = ($arg0)
dump binary value etp-commands.bin 'c'
append binary value etp-commands.bin 'h'
append binary value etp-commands.bin 'a'
append binary value etp-commands.bin 'r'
append binary value etp-commands.bin 't'
append binary value etp-commands.bin '\0'
append binary value etp-commands.bin (Eterm)($etp_chart_start_p->heap)
append binary value etp-commands.bin (Eterm)($etp_chart_start_p->high_water)
append binary value etp-commands.bin (Eterm)($etp_chart_start_p->hend)
append binary value etp-commands.bin (Eterm)($etp_chart_start_p->old_heap)
append binary value etp-commands.bin (Eterm)($etp_chart_start_p->old_hend)
set $etp_chart_start_cnt = 0
set $etp_chart_start_p = $etp_chart_start_p->mbuf
while $etp_chart_start_p && ($etp_chart_start_cnt < $etp_max_depth)
set $etp_chart_start_cnt++
append binary value etp-commands.bin (Eterm)($etp_chart_start_p->mem)
append binary value etp-commands.bin (Eterm)($etp_chart_start_p->size)
set $etp_chart_start_p = $etp_chart_start_p->next
end
append binary value etp-commands.bin (Eterm)(0)
append binary value etp-commands.bin (Eterm)(0)
if $etp_chart_start_p
printf "%% Too many HeapFragments\n"
end
end
document etp-chart-start
%---------------------------------------------------------------------------
% etp-chart-start Process*
%
% Dump a chart head to the file "etp-commands.bin".
%---------------------------------------------------------------------------
end
define etp-chart-entry-1
# Args: Eterm, int depth, int words
#
# Reentrant capable
if ($arg1) == 0
set $etp_chart_id++
printf "#%d:", $etp_chart_id
end
append binary value etp-commands.bin ($arg0)&~0x3
append binary value etp-commands.bin (Eterm)(($arg2)*sizeof(Eterm))
append binary value etp-commands.bin (Eterm)$etp_chart_id
append binary value etp-commands.bin (Eterm)($arg1)
# printf "<dumped %#x %lu %lu %lu>", ($arg0)&~0x3, \
# (Eterm)(($arg2)*sizeof(Eterm)), (Eterm)$etp_chart_id, (Eterm)($arg1)
end
define etp-chart-print
set $etp_chart = 0
etp-run
end
document etp-chart-print
%---------------------------------------------------------------------------
% etp-chart-print Process*
%
% Print a memory chart of the dumped data in "etp-commands.bin", and stop
% chart recording.
%---------------------------------------------------------------------------
end
############################################################################
# ETS table debug
#
define etp-ets-tables
# Args:
#
# Non-reentrant
printf "%% Dumping < %lu ETS tables\n", (unsigned long)db_max_tabs
while $etp_ets_tables_i < db_max_tabs
if (meta_main_tab[$etp_ets_tables_i].u.next_free & 3) == 0
printf "%% %d:", $etp_ets_tables_i
etp-1 ((Eterm)(meta_main_tab[$etp_ets_tables_i].u.tb->common.id)) 0
printf " "
etp-1 ((Eterm)(meta_main_tab[$etp_ets_tables_i].u.tb->common.owner)) 0
printf "\n"
end
set $etp_ets_tables_i++
end
set $etp_ets_tables_i = 0
end
document etp-ets-tables
%---------------------------------------------------------------------------
% etp-ets-tables
%
% Dump all ETS table names and their indexies.
%---------------------------------------------------------------------------
end
define etp-ets-obj
# Args: DbTerm*
#
set $etp_ets_obj_i = 1
while $etp_ets_obj_i <= (($arg0)->tpl[0] >> 6)
if $etp_ets_obj_i == 1
printf "{"
else
printf ", "
end
set $etp_ets_elem = ($arg0)->tpl[$etp_ets_obj_i]
if ($etp_ets_elem & 3) == 0
printf "<compressed>"
else
etp-1 $etp_ets_elem 0
end
set $etp_ets_obj_i++
end
printf "}"
end
define etp-ets-tabledump
# Args: int tableindex
#
# Non-reentrant
printf "%% Dumping ETS table %d:", ($arg0)
set $etp_ets_tabledump_n = 0
set $etp_ets_tabledump_t = meta_main_tab[($arg0)].u.tb
set $etp_ets_tabledump_i = 0
etp-1 ($etp_ets_tabledump_t->common.the_name) 0
printf " status=%#x\n", $etp_ets_tabledump_t->common.status
if $etp_ets_tabledump_t->common.status & 0x130
# Hash table
set $etp_ets_tabledump_h = $etp_ets_tabledump_t->hash
printf "%% nitems=%d\n", (long) $etp_ets_tabledump_t->common.nitems
while $etp_ets_tabledump_i < (long) $etp_ets_tabledump_h->nactive
set $etp_ets_tabledump_seg = ((struct segment**)$etp_ets_tabledump_h->segtab)[$etp_ets_tabledump_i>>8]
set $etp_ets_tabledump_l = $etp_ets_tabledump_seg->buckets[$etp_ets_tabledump_i&0xFF]
if $etp_ets_tabledump_l
printf "%% Slot %d:\n", $etp_ets_tabledump_i
while $etp_ets_tabledump_l
if $etp_ets_tabledump_n
printf ","
else
printf "["
end
set $etp_ets_tabledump_n++
etp-ets-obj &($etp_ets_tabledump_l->dbterm)
if $etp_ets_tabledump_l->hvalue == ((unsigned long)-1)
printf "% *\n"
else
printf "\n"
end
set $etp_ets_tabledump_l = $etp_ets_tabledump_l->next
if $etp_ets_tabledump_n >= $etp_max_depth
set $etp_ets_tabledump_l = 0
end
end
end
set $etp_ets_tabledump_i++
end
if $etp_ets_tabledump_n
printf "].\n"
end
else
printf "%% Not a hash table\n"
end
end
document etp-ets-tabledump
%---------------------------------------------------------------------------
% etp-ets-tabledump Slot
%
% Dump an ETS table with a specified slot index.
%---------------------------------------------------------------------------
end
define etp-lc-dump
# Non-reentrant
set $etp_lc_dump_thread = erts_locked_locks
while $etp_lc_dump_thread
printf "Thread %s\n", $etp_lc_dump_thread->thread_name
set $etp_lc_dump_thread_locked = $etp_lc_dump_thread->locked.first
while $etp_lc_dump_thread_locked
if 0 <= $etp_lc_dump_thread_locked->id && $etp_lc_dump_thread_locked->id < sizeof(erts_lock_order)/sizeof(erts_lc_lock_order_t)
printf " %s:", erts_lock_order[$etp_lc_dump_thread_locked->id].name
else
printf " unkown:"
end
if ($etp_lc_dump_thread_locked->extra & 0x3) == 0x3
etp-1 $etp_lc_dump_thread_locked->extra
else
printf "%p", $etp_lc_dump_thread_locked->extra
end
if ($etp_lc_dump_thread_locked->flags & (0x1f)) == (1 << 0)
printf "[spinlock]"
end
if ($etp_lc_dump_thread_locked->flags & (0x1f)) == (1 << 1)
printf "[rw(spin)lock]"
end
if ($etp_lc_dump_thread_locked->flags & (0x1f)) == (1 << 2)
printf "[mutex]"
end
if ($etp_lc_dump_thread_locked->flags & (0x1f)) == (1 << 3)
printf "[rwmutex]"
end
if ($etp_lc_dump_thread_locked->flags & (0x1f)) == (1 << 4)
printf "[proclock]"
end
printf "(%s:%d)", $etp_lc_dump_thread_locked->file, $etp_lc_dump_thread_locked->line
if ($etp_lc_dump_thread_locked->flags & (0x60)) == (1 << 5)
printf "(r)"
end
if ($etp_lc_dump_thread_locked->flags & (0x60)) == ((1 << 5) | (1 << 6))
printf "(rw)"
end
printf "\n"
set $etp_lc_dump_thread_locked = $etp_lc_dump_thread_locked->next
end
set $etp_lc_dump_thread = $etp_lc_dump_thread->next
end
end
document etp-lc-dump
%---------------------------------------------------------------------------
% etp-lc-dump
%
% Dump all info about locks in the lock checker
%---------------------------------------------------------------------------
end
define etp-ppc-stacktrace
# Args: R1
# Non-reentrant
set $etp_ppc_st_fp = ($arg0)
while $etp_ppc_st_fp
info symbol ((void**)$etp_ppc_st_fp)[1]
set $etp_ppc_st_fp = ((void**)$etp_ppc_st_fp)[0]
end
end
document etp-ppc-stacktrace
%---------------------------------------------------------------------------
% etp-ppc-stacktrace R1
%
% Dump stacktrace from given $r1 frame pointer
%---------------------------------------------------------------------------
end
############################################################################
# OSE support
#
define etp-ose-attach
target ose $arg0:21768
attach block start_beam start_beam
end
document etp-ose-attach
%---------------------------------------------------------------------------
% etp-ose-attach Host
%
% Connect and attach to erlang vm at Host.
%---------------------------------------------------------------------------
end
############################################################################
# Erlang support module handling
#
define etp-run
shell make -f "${ROOTDIR:?}/erts/etc/unix/etp_commands.mk" \
ROOTDIR="${ROOTDIR:?}" ETP_DATA="etp-commands.bin"
end
document etp-run
%---------------------------------------------------------------------------
% etp-run
%
% Make and run the Erlang support module on the input file
% "erl-commands.bin". The environment variable ROOTDIR must
% be set to find $ROOTDIR/erts/etc/unix/etp_commands.mk.
%
% Also, erl and erlc must be in the path.
%---------------------------------------------------------------------------
end
define etp-thr
source @ERL_TOP@/erts/etc/unix/etp-thr.py
end
############################################################################
# erl_alloc_util (blocks and carriers)
#
define etp-block-size-1
#
# In: (Block_t*) in $arg0
# Out: Byte size in $etp_blk_sz
#
if ($arg0)->bhdr & 1
# Free block
set $etp_blk_sz = ($arg0)->bhdr & ~7
else
# Allocated block
if !$etp_MBC_ABLK_SZ_MASK
if etp_arch_bits == 64
set $etp_MBC_ABLK_OFFSET_SHIFT = (64 - 24)
else
set $etp_MBC_ABLK_OFFSET_SHIFT = (32 - 9)
end
set $etp_MBC_ABLK_SZ_MASK = ((UWord)1 << $etp_MBC_ABLK_OFFSET_SHIFT) - 1 - 7
end
set $etp_blk_sz = ($arg0)->bhdr & $etp_MBC_ABLK_SZ_MASK
end
end
define etp-block2mbc-1
#
# In: (Block_t*) in $arg0
# Out: (Carrier_t*) in $etp-mbc
#
if (($arg0)->bhdr) & 1
# Free block
set $etp_mbc = ($arg0)->u.carrier
else
# Allocated block
if !$etp_MBC_ABLK_OFFSET_SHIFT
if etp_arch_bits == 64
set $etp_MBC_ABLK_OFFSET_SHIFT = (64 - 24)
else
set $etp_MBC_ABLK_OFFSET_SHIFT = (32 - 9)
end
end
set $etp_mbc = (Carrier_t*) ((((UWord)($arg0) >> 18) - (($arg0)->bhdr >> $etp_MBC_ABLK_OFFSET_SHIFT)) << 18)
end
end
define etp-block2mbc
etp-block2mbc-1 ((Block_t*)$arg0)
print $etp_mbc
end
document etp-block2mbc
%---------------------------------------------------------------------------
% Print pointer to multiblock carrier containing the argument (Block_t*)
%---------------------------------------------------------------------------
end
define etp-block
etp-block-size-1 ((Block_t*)$arg0)
if ((Block_t*)$arg0)->bhdr & 1
printf "%#lx: FREE sz=%#x\n", ($arg0), $etp_blk_sz
else
printf "%#lx: ALLOCATED sz=%#x\n", ($arg0), $etp_blk_sz
end
end
document etp-block
%---------------------------------------------------------------------------
% Print memory block (Block_t*)
%---------------------------------------------------------------------------
end
define etp-carrier-blocks
set $etp_crr = (Carrier_t*) $arg0
set $etp_alc = (Allctr_t*)($etp_crr->allctr.counter & ~7)
set $etp_crr_end = ((char*)$etp_crr + ($etp_crr->chdr & ~7) - (sizeof(void*) & ~8))
set $etp_blk = (Block_t*) ((char*)$etp_crr + $etp_alc->mbc_header_size)
set $etp_prev_blk = 0
set $etp_error_cnt = 0
set $etp_ablk_cnt = 0
set $etp_fblk_cnt = 0
set $etp_aborted = 0
if $argc == 2
set $etp_be_silent = $arg1
else
set $etp_be_silent = 0
end
while 1
if !$etp_be_silent
etp-block $etp_blk
else
etp-block-size-1 $etp_blk
end
etp-block2mbc-1 $etp_blk
if $etp_mbc != $etp_crr
printf "ERROR: Invalid carrier pointer %#lx in block at %#lx\n", $etp_mbc, $etp_blk
set $etp_error_cnt = $etp_error_cnt + 1
end
if $etp_prev_blk
if ($etp_prev_blk->bhdr & 1)
# Prev is FREE
if ($etp_blk->bhdr & 1)
printf "ERROR: Adjacent FREE blocks at %#lx and %#lx\n", $etp_prev_blk, $etp_blk
set $etp_error_cnt = $etp_error_cnt + 1
end
if !($etp_blk->bhdr & 2)
printf "ERROR: Missing PREV_FREE_BLK_HDR_FLG (2) in block at %#lx\n", $etp_blk
set $etp_error_cnt = $etp_error_cnt + 1
end
end
end
if $etp_blk->bhdr & 1
set $etp_fblk_cnt = $etp_fblk_cnt + 1
else
set $etp_ablk_cnt = $etp_ablk_cnt + 1
end
if $etp_blk->bhdr & 4
# Last block
loop_break
end
# All free blocks except the last have a footer
if ($etp_blk->bhdr & 1) && ((UWord*)((char*)$etp_blk + $etp_blk_sz))[-1] != $etp_blk_sz
printf "ERROR: Invalid footer of free block at %#lx\n", $etp_blk
end
set $etp_prev_blk = $etp_blk
set $etp_blk = (Block_t*) ((char*)$etp_blk + $etp_blk_sz)
if $etp_blk < (Block_t*) ((char*)$etp_prev_blk + $etp_alc->min_block_size) || $etp_blk >= $etp_crr_end
printf "ERROR: Invalid size of block at %#lx. ABORTING\n", $etp_prev_blk
set $etp_aborted = 1
loop_break
end
end
if !$etp_aborted
if ((char*)$etp_blk + $etp_blk_sz) != $etp_crr_end
printf "ERROR: Last block not at end of carrier\n"
set $etp_error_cnt = $etp_error_cnt + 1
end
printf "Allocated blocks: %u\n", $etp_ablk_cnt
printf "Free blocks: %u\n", $etp_fblk_cnt
end
if $etp_error_cnt
printf "%u ERRORs reported above\n", $etp_error_cnt
end
end
document etp-carrier-blocks
%---------------------------------------------------------------------------
% Check and (maybe) print all memory blocks in carrier
% Args: (Carrier_t*) [1=be_silent]
%---------------------------------------------------------------------------
end
define etp-address-to-beam-opcode
set $etp_i = 0
set $etp_min_diff = ((UWord)1 << (sizeof(UWord)*8 - 1))
set $etp_min_opcode = -1
set $etp_addr = (UWord) ($arg0)
while $etp_i < num_instructions && $etp_min_diff > 0
if ($etp_addr - (UWord)beam_ops[$etp_i]) < $etp_min_diff
set $etp_min_diff = $etp_addr - (UWord)beam_ops[$etp_i]
set $etp_min_opcode = $etp_i
end
set $etp_i = $etp_i + 1
end
if $etp_min_diff == 0
printf "Address %p is start of '%s'\n", $etp_addr, opc[$etp_min_opcode].name
else
if $etp_min_opcode >= 0
printf "Address is %ld bytes into opcode '%s' at %p\n", $etp_min_diff, opc[$etp_min_opcode].name, beam_ops[$etp_min_opcode]
else
printf "Invalid opcode address\n"
end
end
end
document etp-address-to-beam-opcode
%---------------------------------------------------------------------------
% Get beam opcode from a native instruction address (within process_main())
% Arg: Instructon pointer value
%
% Does not work with NO_JUMP_TABLE
%---------------------------------------------------------------------------
end
define etp-compile-debug
shell (cd $ERL_TOP && make emulator FLAVOR=smp TYPE=debug)
end
document etp-compile-debug
%---------------------------------------------------------------------------
% Re-compile the debug erlang emulator
%---------------------------------------------------------------------------
end
define etp-compile
shell (cd $ERL_TOP && make emulator)
end
document etp-compile
%---------------------------------------------------------------------------
% Re-compile the erlang emulator
%---------------------------------------------------------------------------
end
############################################################################
# Toolbox parameter handling
#
define etp-set-max-depth
if ($arg0) > 0
set $etp_max_depth = ($arg0)
else
echo %%%Error: max-depth <= 0 %%%\n
end
end
document etp-set-max-depth
%---------------------------------------------------------------------------
% etp-set-max-depth Depth
%
% Set the max term depth to use for etp. The term dept limit
% works in both depth and width, so if you set the max depth to 10,
% an 11 element flat tuple will be truncated.
%---------------------------------------------------------------------------
end
define etp-set-max-string-length
if ($arg0) > 0
set $etp_max_string_length = ($arg0)
else
echo %%%Error: max-string-length <= 0 %%%\n
end
end
document etp-set-max-string-length
%---------------------------------------------------------------------------
% etp-set-max-strint-length Length
%
% Set the max string length to use for ept when printing lists
% that can be shown as printable strings. Printable strings
% that are longer will be truncated, and not even checked if
% they really are printable all the way to the end.
%---------------------------------------------------------------------------
end
define etp-show
printf "etp-set-max-depth %d\n", $etp_max_depth
printf "etp-set-max-string-length %d\n", $etp_max_string_length
end
document etp-show
%---------------------------------------------------------------------------
% etp-show
%
% Show the commands needed to set all etp parameters
% to their current value.
%---------------------------------------------------------------------------
end
############################################################################
# Init
#
define etp-init
set $etp_arch64 = (sizeof(void *) == 8)
if $etp_arch64
set $etp_nil = 0xfffffffffffffffb
else
set $etp_nil = 0xfffffffb
end
set $etp_flat = 0
set $etp_chart_id = 0
set $etp_chart = 0
set $etp_max_depth = 20
set $etp_max_string_length = 100
set $etp_ets_tables_i = 0
end
document etp-init
%---------------------------------------------------------------------------
% Use etp-help for a command overview and general help.
%
% To use the Erlang support module, the environment variable ROOTDIR
% must be set to the toplevel installation directory of Erlang/OTP,
% so the etp-commands file becomes:
% $ROOTDIR/erts/etc/unix/etp-commands
% Also, erl and erlc must be in the path.
%---------------------------------------------------------------------------
end
etp-init
help etp-init
etp-show
etp-system-info