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|
%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2010-2014. All Rights Reserved.
%%
%% The contents of this file are subject to the Erlang Public License,
%% Version 1.1, (the "License"); you may not use this file except in
%% compliance with the License. You should have received a copy of the
%% Erlang Public License along with this software. If not, it can be
%% retrieved online at http://www.erlang.org/.
%%
%% Software distributed under the License is distributed on an "AS IS"
%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
%% the License for the specific language governing rights and limitations
%% under the License.
%%
%% %CopyrightEnd%
%%
%%
%% Generic functions for formatting table listings and more. Used by
%% diameter_dbg.
%%
-module(diameter_info).
-export([usage/1,
format/1,
format/2,
format/3,
format/4,
table/2,
tables/1,
tables/2,
split/2,
split/3,
tab2list/1,
modules/1,
versions/1,
version_info/1,
attrs/2,
compiled/1,
procs/1,
latest/1,
list/1]).
%% Support for rolling your own.
-export([sep/0,
sep/1,
widest/1,
p/1,
p/3]).
-compile({no_auto_import,[max/2]}).
-export([collect/2]).
-define(LONG_TIMEOUT, 30000).
-define(VALUES(Rec), tl(tuple_to_list(Rec))).
%%% ----------------------------------------------------------
%%% # usage(String)
%%% ----------------------------------------------------------
usage(Usage) ->
sep($+),
io:format("+ ~p~n", [?MODULE]),
io:format("~n~s~n~n", [compact(Usage)]),
sep($+).
%%%
%%% The function format/3, for pretty-printing tables, comes in
%%% several flavours.
%%%
%%% ----------------------------------------------------------
%%% # format(TableName, Fields, SplitFun)
%%%
%%% Input: TableName = atom() name of table.
%%%
%%% Fields = List of field names for the records maintained
%%% in the specified table. Can be empty, in which
%%% case entries are listed unadorned of field names
%%% and SplitFun is unused.
%%% | Integer, equivalent to a list with this many '' atoms.
%%% | Arity 1 fun mapping a table entry to a Fields list
%%% or a tuple {Fields, Values} of lists of the same
%%% length.
%%%
%%% If Fields is a list then its length must be the same
%%% as or one less than the size of the tuples contained
%%% in the table. (The values printed then being those
%%% in the tuple or record in question.)
%%%
%%% SplitFun = Arity 3 fun applied as
%%%
%%% SplitFun(TableName, Fields, Values)
%%%
%%% in order to obtain a tuple
%%%
%%% {Field, RestFields, Value, RestValues}
%%%
%%% for which Field/Value will be formatted on
%%% STDOUT. (This is to allow a value to be
%%% transformed before being output by returning a
%%% new value and/or replacing the remainder of
%%% the list.) The returned lists must have the
%%% same length and Field here is an atom, '' causing
%%% a value to be listed unadorned of the field name.
%%%
%%% Field can also be list of field names, in
%%% which case Value must be a record of the
%%% corresponding type.
%%%
%%% | Arity 2 fun applied as SplitFun(Fields, Values).
%%%
%%% Output: Count | undefined
%%%
%%% Count = Number of entries output.
%%%
%%% Description: Pretty-print records in a named table.
%%% ----------------------------------------------------------
format(Table, Fields, SFun)
when is_atom(Table), is_function(SFun, 2) ->
ft(ets:info(Table), Table, SFun, Fields);
format(Table, Fields, SFun)
when is_atom(Table), is_function(SFun, 3) ->
format(Table, Fields, fun(Fs,Vs) -> SFun(Table, Fs, Vs) end);
%%% ----------------------------------------------------------
%%% # format(Recs, Fields, SplitFun)
%%%
%%% Input: Recs = list of records/tuples
%%% Fields = As for format(Table, Fields, SplitFun), a table
%%% entry there being a member of Recs.
%%% SplitFun = Arity 3 fun applied as above but with the TableName
%%% replaced by the first element of the records in
%%% question.
%%% | Arity 2 fun as for format/3.
%%%
%%% Output: length(Recs)
%%%
%%% Description: Pretty print records/tuples.
%%% ----------------------------------------------------------
format(Recs, Fields, SFun)
when is_list(Recs), is_function(SFun, 3) ->
lists:foldl(fun(R,A) -> f(recsplit(SFun, R), 0, Fields, R, A) end,
0,
Recs);
format(Recs, Fields, SFun)
when is_list(Recs), is_function(SFun, 2) ->
lists:foldl(fun(R,A) -> f(SFun, 0, Fields, R, A) end,
0,
Recs);
%%% ----------------------------------------------------------
%%% # format(Tables, SplitFun, CollectFun)
%%%
%%% Input: Tables = list of {TableName, Fields}.
%%% SplitFun = As for format(Table, Fields, SplitFun).
%%% CollectFun = arity 1 fun mapping a table name to a list
%%% of elements. A non-list can be returned to indicate
%%% that the table in question doesn't exist.
%%%
%%% Output: Number of entries output.
%%%
%%% Description: Pretty-print records in a named tables as collected
%%% from known nodes. Each table listing is preceeded by
%%% a banner.
%%% ----------------------------------------------------------
format(Tables, SFun, CFun)
when is_list(Tables), is_function(CFun, 1) ->
format_remote(Tables,
SFun,
rpc:multicall(nodes(known),
?MODULE,
collect,
[CFun, lists:map(fun({T,_}) -> T end, Tables)],
?LONG_TIMEOUT));
%%% ----------------------------------------------------------
%%% # format(LocalTables, RemoteTables, SplitFun, CollectFun)
%%% # format(LocalTables, RemoteTables, SplitFun)
%%%
%%% Input: LocalTables = list of {TableName, Fields}.
%%% | list of {TableName, Recs, Fields}
%%% RemoteTable = list of {TableName, Fields}.
%%% SplitFun, CollectFun = As for format(Table, CollectFun, SplitFun).
%%%
%%% Output: Number of entries output.
%%%
%%% Description: Pretty-print records in a named tables as collected
%%% from local and remote nodes. Each table listing is
%%% preceeded by a banner.
%%% ----------------------------------------------------------
format(Local, Remote, SFun) ->
format(Local, Remote, SFun, fun tab2list/1).
format(Local, Remote, SFun, CFun)
when is_list(Local), is_list(Remote), is_function(CFun, 1) ->
format_local(Local, SFun) + format(Remote, SFun, CFun).
%%% ----------------------------------------------------------
%%% # format(Tables, SplitFun)
%%% ----------------------------------------------------------
format(Tables, SFun)
when is_list(Tables), (is_function(SFun, 2) or is_function(SFun, 3)) ->
format(Tables, SFun, fun tab2list/1);
format(Tables, CFun)
when is_list(Tables), is_function(CFun, 1) ->
format(Tables, fun split/2, CFun).
%%% ----------------------------------------------------------
%%% # format(Table|Tables)
%%% ----------------------------------------------------------
format(Table)
when is_atom(Table) ->
format(Table, [], fun split/2);
format(Tables)
when is_list(Tables) ->
format(Tables, fun split/2, fun tab2list/1).
%%% ----------------------------------------------------------
%%% # split(TableName, Fields, Values)
%%%
%%% Description: format/3 SplitFun that does nothing special.
%%% ----------------------------------------------------------
split([F|FT], [V|VT]) ->
{F, FT, V, VT}.
split(_, Fs, Vs) ->
split(Fs, Vs).
%%% ----------------------------------------------------------
%%% # tab2list(TableName)
%%%
%%% Description: format/4 CollectFun that extracts records from an
%%% existing ets table.
%%% ----------------------------------------------------------
tab2list(Table) ->
case ets:info(Table) of
undefined = No ->
No;
_ ->
ets:tab2list(Table)
end.
list(Table) ->
l(tab2list(Table)).
l(undefined = No) ->
No;
l(List)
when is_list(List) ->
io:format("~p~n", [List]),
length(List).
%%% ----------------------------------------------------------
%%% # table(TableName, Fields)
%%% ----------------------------------------------------------
table(Table, Fields) ->
format(Table, Fields, fun split/2).
%%% ----------------------------------------------------------
%%% # tables(LocalTables, RemoteTables)
%%% ----------------------------------------------------------
tables(Local, Remote) ->
format(Local, Remote, fun split/2).
%%% ----------------------------------------------------------
%%% # tables(Tables)
%%% ----------------------------------------------------------
tables(Tables) ->
format(Tables, fun split/2).
%%% ----------------------------------------------------------
%%% # modules(Prefix|Prefixes)
%%%
%%% Input: Prefix = atom()
%%%
%%% Description: Return the list of all loaded modules with the
%%% specified prefix.
%%% ----------------------------------------------------------
modules(Prefix)
when is_atom(Prefix) ->
lists:sort(mods(Prefix));
modules(Prefixes)
when is_list(Prefixes) ->
lists:sort(lists:flatmap(fun modules/1, Prefixes)).
mods(Prefix) ->
P = atom_to_list(Prefix),
lists:filter(fun(M) ->
lists:prefix(P, atom_to_list(M))
end,
erlang:loaded()).
%%% ----------------------------------------------------------
%%% # versions(Modules|Prefix)
%%%
%%% Output: Number of modules listed.
%%%
%%% Description: List the versions of the specified modules.
%%% ----------------------------------------------------------
versions(Modules) ->
{SysInfo, OsInfo, ModInfo} = version_info(Modules),
sep(),
print_sys_info(SysInfo),
sep(),
print_os_info(OsInfo),
sep(),
print_mod_info(ModInfo),
sep().
%%% ----------------------------------------------------------
%%% # attrs(Modules|Prefix, Attr|FormatFun)
%%%
%%% Output: Number of modules listed.
%%%
%%% Description: List an attribute from module_info.
%%% ----------------------------------------------------------
attrs(Modules, Attr)
when is_atom(Attr) ->
attrs(Modules, fun(W,M) -> attr(W, M, Attr, fun attr/1) end);
attrs(Modules, Fun)
when is_list(Modules) ->
sep(),
W = 2 + widest(Modules),
N = lists:foldl(fun(M,A) -> Fun(W,M), A+1 end, 0, Modules),
sep(),
N;
attrs(Prefix, Fun) ->
attrs(modules(Prefix), Fun).
%% attr/1
attr(T) when is_atom(T) ->
atom_to_list(T);
attr(N) when is_integer(N) ->
integer_to_list(N);
attr(V) ->
case is_list(V) andalso lists:all(fun is_char/1, V) of
true -> %% string
V;
false ->
io_lib:format("~p", [V])
end.
is_char(C) ->
0 =< C andalso C < 256.
%% attr/4
attr(Width, Mod, Attr, VFun) ->
io:format(": ~*s~s~n", [-Width, Mod, attr(Mod, Attr, VFun)]).
attr(Mod, Attr, VFun) ->
Key = key(Attr),
try
VFun(val(Attr, keyfetch(Attr, Mod:module_info(Key))))
catch
_:_ ->
"-"
end.
attr(Mod, Attr) ->
attr(Mod, Attr, fun attr/1).
key(time) -> compile;
key(_) -> attributes.
val(time, {_,_,_,_,_,_} = T) ->
lists:flatten(io_lib:format("~p-~2..0B-~2..0B ~2..0B:~2..0B:~2..0B",
tuple_to_list(T)));
val(_, [V]) ->
V.
%%% ----------------------------------------------------------
%%% # compiled(Modules|Prefix)
%%%
%%% Output: Number of modules listed.
%%%
%%% Description: List the compile times of the specified modules.
%%% ----------------------------------------------------------
compiled(Modules)
when is_list(Modules) ->
attrs(Modules, fun compiled/2);
compiled(Prefix) ->
compiled(modules(Prefix)).
compiled(Width, Mod) ->
io:format(": ~*s~19s ~s~n", [-Width,
Mod,
attr(Mod, time),
opt(attr(Mod, date))]).
opt("-") ->
"";
opt(D) ->
"(" ++ D ++ ")".
%%% ----------------------------------------------------------
%%% # procs(Pred|Prefix|Prefixes|Pid|Pids)
%%%
%%% Input: Pred = arity 2 fun returning true|false when applied to a
%%% pid and its process info.
%%%
%%% Output: Number of processes listed.
%%%
%%% Description: List process info for all local processes that test
%%% true with the specified predicate. With the prefix
%%% form, those processes that are either currently
%%% executing in, started executing in, or have a
%%% registered name with a specified prefix are listed.
%%% With the pid forms, only those process that are local
%%% are listed and those that are dead list only the pid
%%% itself.
%%% ----------------------------------------------------------
procs(Pred)
when is_function(Pred, 2) ->
procs(Pred, erlang:processes());
procs([]) ->
0;
procs(Prefix)
when is_atom(Prefix) ->
procs(fun(_,I) -> info(fun pre1/2, I, atom_to_list(Prefix)) end);
procs(Prefixes)
when is_atom(hd(Prefixes)) ->
procs(fun(_,I) -> info(fun pre/2, I, Prefixes) end);
procs(Pid)
when is_pid(Pid) ->
procs(fun true2/2, [Pid]);
procs(Pids)
when is_list(Pids) ->
procs(fun true2/2, Pids).
true2(_,_) ->
true.
%% procs/2
procs(Pred, Pids) ->
Procs = lists:foldl(fun(P,A) ->
procs_acc(Pred, P, catch process_info(P), A)
end,
[],
Pids),
sep(0 < length(Procs)),
lists:foldl(fun(T,N) -> p(T), sep(), N+1 end, 0, Procs).
procs_acc(_, Pid, undefined, Acc) -> %% dead
[[{pid, Pid}] | Acc];
procs_acc(Pred, Pid, Info, Acc)
when is_list(Info) ->
p_acc(Pred(Pid, Info), Pid, Info, Acc);
procs_acc(_, _, _, Acc) ->
Acc.
p_acc(true, Pid, Info, Acc) ->
[[{pid, Pid} | Info] | Acc];
p_acc(false, _, _, Acc) ->
Acc.
%% info/3
info(Pred, Info, T) ->
lists:any(fun(I) -> i(Pred, I, T) end, Info).
i(Pred, {K, {M,_,_}}, T)
when K == current_function;
K == initial_call ->
Pred(M,T);
i(Pred, {registered_name, N}, T) ->
Pred(N,T);
i(_,_,_) ->
false.
pre1(A, Pre) ->
lists:prefix(Pre, atom_to_list(A)).
pre(A, Prefixes) ->
lists:any(fun(P) -> pre1(A, atom_to_list(P)) end, Prefixes).
%%% ----------------------------------------------------------
%%% # latest(Modules|Prefix)
%%%
%%% Output: {Mod, {Y,M,D,HH,MM,SS}, Version}
%%%
%%% Description: Return the compile time of the most recently compiled
%%% module from the specified non-empty list. The modules
%%% are assumed to exist.
%%% ----------------------------------------------------------
latest(Prefix)
when is_atom(Prefix) ->
latest(modules(Prefix));
latest([_|_] = Modules) ->
{Mod, T}
= hd(lists:sort(fun latest/2, lists:map(fun compile_time/1, Modules))),
{Mod, T, app_vsn(Mod)}.
app_vsn(Mod) ->
keyfetch(app_vsn, Mod:module_info(attributes)).
compile_time(Mod) ->
T = keyfetch(time, Mod:module_info(compile)),
{Mod, T}.
latest({_,T1},{_,T2}) ->
T1 > T2.
%%% ----------------------------------------------------------
%%% version_info(Modules|Prefix)
%%%
%%% Output: {SysInfo, OSInfo, [ModInfo]}
%%%
%%% SysInfo = {Arch, Vers}
%%% OSInfo = {Vers, {Fam, Name}}
%%% ModInfo = {Vsn, AppVsn, Time, CompilerVsn}
%%% ----------------------------------------------------------
version_info(Prefix)
when is_atom(Prefix) ->
version_info(modules(Prefix));
version_info(Mods)
when is_list(Mods) ->
{sys_info(), os_info(), [{M, mod_version_info(M)} || M <- Mods]}.
mod_version_info(Mod) ->
try
Info = Mod:module_info(),
[[Vsn], AppVsn] = get_values(attributes, [vsn, app_vsn], Info),
[Ver, Time] = get_values(compile, [version, time], Info),
[Vsn, AppVsn, Ver, Time]
catch
_:_ ->
[]
end.
get_values(Attr, Keys, Info) ->
As = proplists:get_value(Attr, Info),
[proplists:get_value(K, As, "?") || K <- Keys].
sys_info() ->
[A,V] = [chomp(erlang:system_info(K)) || K <- [system_architecture,
system_version]],
{A,V}.
os_info() ->
{os:version(), os:type()}.
chomp(S) ->
string:strip(S, right, $\n).
print_sys_info({Arch, Ver}) ->
io:format("System info:~n"
" architecture : ~s~n"
" version : ~s~n",
[Arch, Ver]).
print_os_info({Vsn, {Fam, Name}}) ->
io:format("OS info:~n"
" family : ~s ~s~n"
" version : ~s~n",
[str(Fam), bkt(str(Name)), vsn(Vsn)]).
print_mod_info(Mods) ->
io:format("Module info:~n", []),
lists:foreach(fun print_mod/1, Mods).
print_mod({Mod, []}) ->
io:format(" ~w:~n", [Mod]);
print_mod({Mod, [Vsn, AppVsn, Ver, {Year, Month, Day, Hour, Min, Sec}]}) ->
Time = io_lib:format("~w-~2..0w-~2..0w ~2..0w:~2..0w:~2..0w",
[Year, Month, Day, Hour, Min, Sec]),
io:format(" ~w:~n"
" vsn : ~s~n"
" app_vsn : ~s~n"
" compiled : ~s~n"
" compiler : ~s~n",
[Mod, str(Vsn), str(AppVsn), Time, Ver]).
str(A)
when is_atom(A) ->
atom_to_list(A);
str(S)
when is_list(S) ->
S;
str(T) ->
io_lib:format("~p", [T]).
bkt("" = S) ->
S;
bkt(S) ->
[$[, S, $]].
vsn(T) when is_tuple(T) ->
case [[$., integer_to_list(N)] || N <- tuple_to_list(T)] of
[[$.,S] | Rest] ->
[S | Rest];
[] = S ->
S
end;
vsn(T) ->
str(T).
%%% ----------------------------------------------------------
%%% ----------------------------------------------------------
%% p/1
p(Info) ->
W = 2 + widest([K || {K,_} <- Info]),
lists:foreach(fun({K,V}) -> p(W,K,V) end, Info).
p(Width, Key, Value) ->
io:format(": ~*s: ~p~n", [-Width, Key, Value]).
%% sep/[01]
sep() ->
sep($#).
sep(true) ->
sep();
sep(false) ->
ok;
sep(Ch) ->
io:format("~c~65c~n", [Ch, $-]).
%% widest/1
widest(List) ->
lists:foldl(fun widest/2, 0, List).
widest(T, Max)
when is_atom(T) ->
widest(atom_to_list(T), Max);
widest(T, Max)
when is_integer(T) ->
widest(integer_to_list(T), Max);
widest(T, Max)
when is_list(T) -> %% string
max(length(T), Max).
pt(T) ->
io:format(": ~p~n", [T]).
recsplit(SFun, Rec) ->
fun(Fs,Vs) -> SFun(element(1, Rec), Fs, Vs) end.
max(A, B) ->
if A > B -> A; true -> B end.
keyfetch(Key, List) ->
{Key,V} = lists:keyfind(Key, 1, List),
V.
%% ft/4
ft(undefined = No, _, _, _) ->
No;
ft(_, Table, SFun, Fields) ->
ets:foldl(fun(R,A) ->
f(SFun, 0, Fields, R, A)
end,
0,
Table).
%% f/5
f(SFun, Width, Fields, Rec, Count) ->
ff(SFun, Width, fields(Fields, Rec), Rec, Count).
ff(SFun, Width, Fields, Rec, Count) ->
sep(0 == Count),
f(SFun, Width, Fields, Rec),
sep(),
Count+1.
fields(N, _)
when is_integer(N), N >= 0 ->
lists:duplicate(N, ''); %% list values unadorned
fields(Fields, R)
when is_function(Fields, 1) ->
fields(Fields(R), R);
fields({Fields, Values} = T, _)
when length(Fields) == length(Values) ->
T;
fields(Fields, _)
when is_list(Fields) ->
Fields. %% list field/value pairs, or tuples if []
%% f/4
%% Empty fields list: just print the entry.
f(_, _, [], Rec)
when is_tuple(Rec) ->
pt(Rec);
%% Otherwise list field names/values.
f(SFun, Width, {Fields, Values}, _) ->
f(SFun, Width, Fields, Values);
f(SFun, Width, Fields, Rec)
when is_tuple(Rec) ->
f(SFun, Width, Fields, values(Fields, Rec));
f(_, _, [], []) ->
ok;
f(SFun, Width, [HF | _] = Fields, Values) ->
{F, FT, V, VT} = SFun(Fields, Values),
if is_list(F) -> %% V is a record
break($>, HF),
f(SFun, Width, F, values(F,V)),
break($<, HF),
f(SFun, Width, FT, VT);
F == '' -> %% no field name: just list value
pt(V),
f(SFun, Width, FT, VT);
true -> %% list field/value.
W = max(Width, 1 + widest(Fields)),
p(W, F, V),
f(SFun, W, FT, VT)
end.
values(Fields, Rec)
when length(Fields) == size(Rec) - 1 ->
?VALUES(Rec);
values(Fields, T)
when length(Fields) == size(T) ->
tuple_to_list(T).
%% format_local/2
format_local(Tables, SFun) ->
lists:foldl(fun(T,A) -> fl(SFun, T, A) end, 0, Tables).
fl(SFun, {Table, Recs, Fields}, Count) ->
sep(),
io:format("# ~p~n", [Table]),
N = fmt(Recs, Fields, SFun),
sep(0 == N),
Count + N;
fl(SFun, {Table, Fields}, Count) ->
fl(SFun, {Table, Table, Fields}, Count).
%% fmt/3
fmt(T, Fields, SFun) ->
case format(T, Fields, SFun) of
undefined ->
0;
N ->
N
end.
%% break/2
break(C, T) ->
io:format("~c ~p~n", [C, T]).
%% collect/2
%%
%% Output: {[{TableName, Recs}, ...], node()}
collect(CFun, TableNames) ->
{lists:foldl(fun(N,A) -> c(CFun, N, A) end, [], TableNames), node()}.
c(CFun, TableName, Acc) ->
case CFun(TableName) of
Recs when is_list(Recs) ->
[{TableName, Recs} | Acc];
_ ->
Acc
end.
%% format_remote/3
format_remote(Tables, SFun, {Replies, BadNodes}) ->
N = lists:foldl(fun(T,A) -> fr(Tables, SFun, T, A) end,
0,
Replies),
sep(0 == N andalso [] /= BadNodes),
lists:foreach(fun(Node) -> io:format("# no reply from ~p~n", [Node]) end,
BadNodes),
sep([] /= BadNodes),
N.
fr(Tables, SFun, {List, Node}, Count)
when is_list(List) -> %% guard against {badrpc, Reason}
lists:foldl(fun({T,Recs}, C) -> fr(Tables, SFun, Node, T, Recs,C) end,
Count,
List);
fr(_, _, _, Count) ->
Count.
fr(Tables, SFun, Node, Table, Recs, Count) ->
Fields = keyfetch(Table, Tables),
sep(),
io:format("# ~p@~p~n", [Table, Node]),
N = format(Recs, Fields, tblsplit(SFun, Table)),
sep(0 == N),
Count + N.
tblsplit(SFun, Table)
when is_function(SFun, 3) ->
fun(Fs,Vs) -> SFun(Table, Fs, Vs) end;
tblsplit(SFun, _)
when is_function(SFun, 2) ->
SFun.
%% compact/1
%%
%% Strip whitespace from both ends of a string.
compact(Str) ->
compact(Str, true).
compact([Ch|Rest], B)
when Ch == $\n;
Ch == $ ;
Ch == $\t;
Ch == $\v;
Ch == $\r ->
compact(Rest, B);
compact(Str, false) ->
Str;
compact(Str, true) ->
lists:reverse(compact(lists:reverse(Str), false)).
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