%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2000-2016. 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%
%%
-module(prim_file_SUITE).
-export([all/0, suite/0,groups/0,init_per_suite/1, end_per_suite/1,
init_per_group/2,end_per_group/2,
read_write_file/1]).
-export([cur_dir_0a/1, cur_dir_0b/1,
cur_dir_1a/1, cur_dir_1b/1,
make_del_dir_a/1, make_del_dir_b/1,
pos1/1, pos2/1]).
-export([close/1,
delete_a/1, delete_b/1]).
-export([ open1/1, modes/1]).
-export([
file_info_basic_file_a/1, file_info_basic_file_b/1,
file_info_basic_directory_a/1, file_info_basic_directory_b/1,
file_info_bad_a/1, file_info_bad_b/1,
file_info_times_a/1, file_info_times_b/1,
file_write_file_info_a/1, file_write_file_info_b/1,
file_read_file_info_opts/1, file_write_file_info_opts/1,
file_write_read_file_info_opts/1
]).
-export([rename_a/1, rename_b/1,
access/1, truncate/1, datasync/1, sync/1,
read_write/1, pread_write/1, append/1, exclusive/1]).
-export([ e_delete/1, e_rename/1, e_make_dir/1, e_del_dir/1]).
-export([ read_not_really_compressed/1,
read_compressed/1, write_compressed/1,
compress_errors/1]).
-export([
make_link_a/1, make_link_b/1,
read_link_info_for_non_link/1,
symlinks_a/1, symlinks_b/1,
list_dir_limit/1,
list_dir_error/1,
list_dir/1]).
-export([advise/1]).
-export([large_write/1]).
%% System probe functions that might be handy to check from the shell
-export([unix_free/1]).
-export([allocate/1]).
-include_lib("common_test/include/ct.hrl").
-include_lib("kernel/include/file.hrl").
-define(PRIM_FILE, prim_file).
%% Calls ?PRIM_FILE:F with arguments A and an optional handle H
%% as first argument, unless the handle is [], i.e no handle.
%% This is a macro to give the compiler and thereby
%% the cross reference tool the possibility to interprete
%% the call, since M, F, A (or [H | A]) can all be known at
%% compile time.
-define(PRIM_FILE_call(F, H, A),
case H of
[] -> apply(?PRIM_FILE, F, A);
_ -> apply(?PRIM_FILE, F, [H | A])
end).
suite() -> [].
all() ->
[read_write_file, {group, dirs}, {group, files},
delete_a, delete_b, rename_a, rename_b, {group, errors},
{group, compression}, {group, links}, list_dir_limit, list_dir].
groups() ->
[{dirs, [],
[make_del_dir_a, make_del_dir_b, cur_dir_0a, cur_dir_0b,
cur_dir_1a, cur_dir_1b]},
{files, [],
[{group, open}, {group, pos}, {group, file_info},
truncate, sync, datasync, advise, large_write, allocate]},
{open, [],
[open1, modes, close, access, read_write, pread_write,
append, exclusive]},
{pos, [], [pos1, pos2]},
{file_info, [],
[file_info_basic_file_a, file_info_basic_file_b,
file_info_basic_directory_a,
file_info_basic_directory_b, file_info_bad_a,
file_info_bad_b, file_info_times_a, file_info_times_b,
file_write_file_info_a, file_write_file_info_b,
file_read_file_info_opts, file_write_file_info_opts,
file_write_read_file_info_opts
]},
{errors, [],
[e_delete, e_rename, e_make_dir, e_del_dir]},
{compression, [],
[read_compressed, read_not_really_compressed,
write_compressed, compress_errors]},
{links, [],
[make_link_a, make_link_b, read_link_info_for_non_link,
symlinks_a, symlinks_b, list_dir_error]}].
init_per_group(_GroupName, Config) ->
Config.
end_per_group(_GroupName, Config) ->
Config.
init_per_suite(Config) when is_list(Config) ->
case os:type() of
{win32, _} ->
Priv = proplists:get_value(priv_dir, Config),
HasAccessTime =
case file:read_file_info(Priv) of
{ok, #file_info{atime={_, {0, 0, 0}}}} ->
%% This is a unfortunately a FAT file system.
[no_access_time];
{ok, _} ->
[]
end,
HasAccessTime++Config;
_ ->
Config
end.
end_per_suite(Config) when is_list(Config) ->
case os:type() of
{win32, _} ->
os:cmd("subst z: /d");
_ ->
ok
end,
Config.
%% Matches a term (the last) against alternatives
expect(X, _, X) ->
X;
expect(_, X, X) ->
X.
expect(X, _, _, X) ->
X;
expect(_, X, _, X) ->
X;
expect(_, _, X, X) ->
X.
expect(X, _, _, _, X) ->
X;
expect(_, X, _, _, X) ->
X;
expect(_, _, X, _, X) ->
X;
expect(_, _, _, X, X) ->
X.
%% Calculate the time difference
time_dist({YY, MM, DD, H, M, S}, DT) ->
time_dist({{YY, MM, DD}, {H, M, S}}, DT);
time_dist(DT, {YY, MM, DD, H, M, S}) ->
time_dist(DT, {{YY, MM, DD}, {H, M, S}});
time_dist({_D1, _T1} = DT1, {_D2, _T2} = DT2) ->
calendar:datetime_to_gregorian_seconds(DT2)
- calendar:datetime_to_gregorian_seconds(DT1).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
read_write_file(Config) when is_list(Config) ->
RootDir = proplists:get_value(priv_dir,Config),
Name = filename:join(RootDir,
atom_to_list(?MODULE)
++"_read_write_file"),
%% Try writing and reading back some term
SomeTerm = {"This term",{will,be},[written,$t,$o],1,file,[]},
ok = ?PRIM_FILE:write_file(Name,term_to_binary(SomeTerm)),
{ok,Bin1} = ?PRIM_FILE:read_file(Name),
SomeTerm = binary_to_term(Bin1),
%% Try a "null" term
NullTerm = [],
ok = ?PRIM_FILE:write_file(Name,term_to_binary(NullTerm)),
{ok,Bin2} = ?PRIM_FILE:read_file(Name),
NullTerm = binary_to_term(Bin2),
%% Try some "complicated" types
BigNum = 123456789012345678901234567890,
ComplTerm = {self(),make_ref(),BigNum,3.14159},
ok = ?PRIM_FILE:write_file(Name,term_to_binary(ComplTerm)),
{ok,Bin3} = ?PRIM_FILE:read_file(Name),
ComplTerm = binary_to_term(Bin3),
%% Try reading a nonexistent file
Name2 = filename:join(RootDir,
atom_to_list(?MODULE)
++"_nonexistent_file"),
{error, enoent} = ?PRIM_FILE:read_file(Name2),
{error, enoent} = ?PRIM_FILE:read_file(""),
%% Try writing to a bad filename
{error, enoent} =
?PRIM_FILE:write_file("",term_to_binary(NullTerm)),
%% Try writing something else than a binary
{error, badarg} = ?PRIM_FILE:write_file(Name,{1,2,3}),
{error, badarg} = ?PRIM_FILE:write_file(Name,self()),
%% Some non-term binaries
ok = ?PRIM_FILE:write_file(Name,[]),
{ok,Bin4} = ?PRIM_FILE:read_file(Name),
0 = byte_size(Bin4),
ok = ?PRIM_FILE:write_file(Name,[Bin1,[],[[Bin2]]]),
{ok,Bin5} = ?PRIM_FILE:read_file(Name),
{Bin1,Bin2} = split_binary(Bin5,byte_size(Bin1)),
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
make_del_dir_a(Config) when is_list(Config) ->
make_del_dir(Config, [], "_a").
make_del_dir_b(Config) when is_list(Config) ->
{ok, Handle} = ?PRIM_FILE:start(),
Result = make_del_dir(Config, Handle, "_b"),
ok = ?PRIM_FILE:stop(Handle),
%% Just to make sure the state of the server makes a difference
{error, einval} = ?PRIM_FILE_call(get_cwd, Handle, []),
Result.
make_del_dir(Config, Handle, Suffix) ->
RootDir = proplists:get_value(priv_dir,Config),
NewDir = filename:join(RootDir,
atom_to_list(?MODULE)
++"_mk-dir"++Suffix),
ok = ?PRIM_FILE_call(make_dir, Handle, [NewDir]),
{error, eexist} = ?PRIM_FILE_call(make_dir, Handle, [NewDir]),
ok = ?PRIM_FILE_call(del_dir, Handle, [NewDir]),
{error, enoent} = ?PRIM_FILE_call(del_dir, Handle, [NewDir]),
%% Make sure we are not in a directory directly under test_server
%% as that would result in eacces errors when trying to delete '..',
%% because there are processes having that directory as current.
ok = ?PRIM_FILE_call(make_dir, Handle, [NewDir]),
{ok, CurrentDir} = ?PRIM_FILE_call(get_cwd, Handle, []),
case {os:type(), length(NewDir) >= 260 } of
{{win32,_}, true} ->
io:format("Skip set_cwd for windows path longer than 260 (MAX_PATH)\n", []),
io:format("\nNewDir = ~p\n", [NewDir]);
_ ->
ok = ?PRIM_FILE_call(set_cwd, Handle, [NewDir])
end,
try
%% Check that we get an error when trying to create...
%% a deep directory
NewDir2 = filename:join(RootDir,
atom_to_list(?MODULE)
++"_mk-dir-noexist/foo"),
{error, enoent} = ?PRIM_FILE_call(make_dir, Handle, [NewDir2]),
%% a nameless directory
{error, enoent} = ?PRIM_FILE_call(make_dir, Handle, [""]),
%% a directory with illegal name
{error, badarg} = ?PRIM_FILE_call(make_dir, Handle, ['mk-dir']),
%% a directory with illegal name, even if it's a (bad) list
{error, badarg} = ?PRIM_FILE_call(make_dir, Handle, [[1,2,3,{}]]),
%% Maybe this isn't an error, exactly, but worth mentioning anyway:
%% ok = ?PRIM_FILE:make_dir([$f,$o,$o,0,$b,$a,$r])),
%% The above line works, and created a directory "./foo"
%% More elegant would maybe have been to fail, or to really create
%% a directory, but with a name that incorporates the "bar" part of
%% the list, so that [$f,$o,$o,0,$f,$o,$o] wouldn't refer to the same
%% dir. But this would slow it down.
%% Try deleting some bad directories
%% Deleting the parent directory to the current, sounds dangerous, huh?
%% Don't worry ;-) the parent directory should never be empty, right?
case ?PRIM_FILE_call(del_dir, Handle, [".."]) of
{error, eexist} -> ok;
{error, eacces} -> ok; %OpenBSD
{error, einval} -> ok %FreeBSD
end,
{error, enoent} = ?PRIM_FILE_call(del_dir, Handle, [""]),
{error, badarg} = ?PRIM_FILE_call(del_dir, Handle, [[3,2,1,{}]])
after
ok = ?PRIM_FILE_call(set_cwd, Handle, [CurrentDir])
end,
ok.
cur_dir_0a(Config) when is_list(Config) ->
cur_dir_0(Config, []).
cur_dir_0b(Config) when is_list(Config) ->
{ok, Handle} = ?PRIM_FILE:start(),
Result = cur_dir_0(Config, Handle),
ok = ?PRIM_FILE:stop(Handle),
Result.
cur_dir_0(Config, Handle) ->
%% Find out the current dir, and cd to it ;-)
{ok,BaseDir} = ?PRIM_FILE_call(get_cwd, Handle, []),
Dir1 = BaseDir ++ "", %% Check that it's a string
ok = ?PRIM_FILE_call(set_cwd, Handle, [Dir1]),
DirName = atom_to_list(?MODULE) ++
case Handle of
[] ->
"_curdir";
_ ->
"_curdir_h"
end,
%% Make a new dir, and cd to that
RootDir = proplists:get_value(priv_dir,Config),
NewDir = filename:join(RootDir, DirName),
ok = ?PRIM_FILE_call(make_dir, Handle, [NewDir]),
case {os:type(), length(NewDir) >= 260} of
{{win32,_}, true} ->
io:format("Skip set_cwd for windows path longer than 260 (MAX_PATH):\n"),
io:format("\nNewDir = ~p\n", [NewDir]);
_ ->
io:format("cd to ~s",[NewDir]),
ok = ?PRIM_FILE_call(set_cwd, Handle, [NewDir]),
%% Create a file in the new current directory, and check that it
%% really is created there
UncommonName = "uncommon.fil",
{ok,Fd} = ?PRIM_FILE:open(UncommonName, [read, write]),
ok = ?PRIM_FILE:close(Fd),
{ok,NewDirFiles} = ?PRIM_FILE_call(list_dir, Handle, ["."]),
true = lists:member(UncommonName,NewDirFiles),
%% Delete the directory and return to the old current directory
%% and check that the created file isn't there (too!)
expect({error, einval}, {error, eacces}, {error, eexist},
?PRIM_FILE_call(del_dir, Handle, [NewDir])),
?PRIM_FILE_call(delete, Handle, [UncommonName]),
{ok,[]} = ?PRIM_FILE_call(list_dir, Handle, ["."]),
ok = ?PRIM_FILE_call(set_cwd, Handle, [Dir1]),
io:format("cd back to ~s",[Dir1]),
ok = ?PRIM_FILE_call(del_dir, Handle, [NewDir]),
{error, enoent} = ?PRIM_FILE_call(set_cwd, Handle, [NewDir]),
ok = ?PRIM_FILE_call(set_cwd, Handle, [Dir1]),
io:format("cd back to ~s",[Dir1]),
{ok,OldDirFiles} = ?PRIM_FILE_call(list_dir, Handle, ["."]),
false = lists:member(UncommonName,OldDirFiles)
end,
%% Try doing some bad things
{error, badarg} =
?PRIM_FILE_call(set_cwd, Handle, [{foo,bar}]),
{error, enoent} =
?PRIM_FILE_call(set_cwd, Handle, [""]),
{error, enoent} =
?PRIM_FILE_call(set_cwd, Handle, [".......a......"]),
{ok,BaseDir} =
?PRIM_FILE_call(get_cwd, Handle, []), %% Still there?
%% On Windows, there should only be slashes, no backslashes,
%% in the return value of get_cwd().
%% (The test is harmless on Unix, because filenames usually
%% don't contain backslashes.)
{ok, BaseDir} = ?PRIM_FILE_call(get_cwd, Handle, []),
false = lists:member($\\, BaseDir),
ok.
%% Tests ?PRIM_FILE:get_cwd/1.
cur_dir_1a(Config) when is_list(Config) ->
cur_dir_1(Config, []).
cur_dir_1b(Config) when is_list(Config) ->
{ok, Handle} = ?PRIM_FILE:start(),
Result = cur_dir_1(Config, Handle),
ok = ?PRIM_FILE:stop(Handle),
Result.
cur_dir_1(Config, Handle) ->
case os:type() of
{win32, _} ->
win_cur_dir_1(Config, Handle);
_ ->
{error, enotsup} =
?PRIM_FILE_call(get_cwd, Handle, ["d:"])
end,
ok.
win_cur_dir_1(_Config, Handle) ->
{ok, BaseDir} = ?PRIM_FILE_call(get_cwd, Handle, []),
%% Get the drive letter from the current directory,
%% and try to get current directory for that drive.
[Drive, $:|_] = BaseDir,
{ok, BaseDir} = ?PRIM_FILE_call(get_cwd, Handle, [[Drive, $:]]),
io:format("BaseDir = ~s\n", [BaseDir]),
%% Unfortunately, there is no way to move away from the
%% current drive as we can't use the "subst" command from
%% a SSH connection. We can't test any more. Too bad.
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
open1(Config) when is_list(Config) ->
RootDir = proplists:get_value(priv_dir,Config),
NewDir = filename:join(RootDir,
atom_to_list(?MODULE)
++"_files"),
ok = ?PRIM_FILE:make_dir(NewDir),
Name = filename:join(NewDir, "foo1.fil"),
{ok,Fd1} = ?PRIM_FILE:open(Name, [read, write]),
{ok,Fd2} = ?PRIM_FILE:open(Name, [read]),
Str = "{a,tuple}.\n",
Length = length(Str),
?PRIM_FILE:write(Fd1,Str),
{ok,0} = ?PRIM_FILE:position(Fd1,bof),
{ok, Str} = ?PRIM_FILE:read(Fd1,Length),
{ok, Str} = ?PRIM_FILE:read(Fd2,Length),
ok = ?PRIM_FILE:close(Fd2),
{ok,0} = ?PRIM_FILE:position(Fd1,bof),
ok = ?PRIM_FILE:truncate(Fd1),
eof = ?PRIM_FILE:read(Fd1,Length),
ok = ?PRIM_FILE:close(Fd1),
{ok,Fd3} = ?PRIM_FILE:open(Name, [read]),
eof = ?PRIM_FILE:read(Fd3,Length),
ok = ?PRIM_FILE:close(Fd3),
ok.
%% Tests all open modes.
modes(Config) when is_list(Config) ->
RootDir = proplists:get_value(priv_dir, Config),
NewDir = filename:join(RootDir,
atom_to_list(?MODULE)
++"_open_modes"),
ok = ?PRIM_FILE:make_dir(NewDir),
Name1 = filename:join(NewDir, "foo1.fil"),
Marker = "hello, world",
Length = length(Marker),
%% write
{ok, Fd1} = ?PRIM_FILE:open(Name1, [write]),
ok = ?PRIM_FILE:write(Fd1, Marker),
ok = ?PRIM_FILE:write(Fd1, ".\n"),
ok = ?PRIM_FILE:close(Fd1),
%% read
{ok, Fd2} = ?PRIM_FILE:open(Name1, [read]),
{ok, Marker} = ?PRIM_FILE:read(Fd2, Length),
ok = ?PRIM_FILE:close(Fd2),
%% read and write
{ok, Fd3} = ?PRIM_FILE:open(Name1, [read, write]),
{ok, Marker} = ?PRIM_FILE:read(Fd3, Length),
ok = ?PRIM_FILE:write(Fd3, Marker),
ok = ?PRIM_FILE:close(Fd3),
%% read by default
{ok, Fd4} = ?PRIM_FILE:open(Name1, []),
{ok, Marker} = ?PRIM_FILE:read(Fd4, Length),
ok = ?PRIM_FILE:close(Fd4),
%% read and binary
BinaryMarker = list_to_binary(Marker),
{ok, Fd5} = ?PRIM_FILE:open(Name1, [read, binary]),
{ok, BinaryMarker} = ?PRIM_FILE:read(Fd5, Length),
ok = ?PRIM_FILE:close(Fd5),
ok.
close(Config) when is_list(Config) ->
RootDir = proplists:get_value(priv_dir,Config),
Name = filename:join(RootDir,
atom_to_list(?MODULE)
++"_close.fil"),
{ok,Fd1} = ?PRIM_FILE:open(Name, [read, write]),
%% Just closing it is no fun, we did that a million times already
%% This is a common error, for code written before Erlang 4.3
%% bacause then ?PRIM_FILE:open just returned a Pid, and not everyone
%% really checked what they got.
{'EXIT',_Msg} = (catch ok = ?PRIM_FILE:close({ok,Fd1})),
ok = ?PRIM_FILE:close(Fd1),
%% Try closing one more time
Val = ?PRIM_FILE:close(Fd1),
io:format("Second close gave: ~p", [Val]),
ok.
access(Config) when is_list(Config) ->
RootDir = proplists:get_value(priv_dir,Config),
Name = filename:join(RootDir,
atom_to_list(?MODULE)
++"_access.fil"),
Str = "ABCDEFGH",
{ok,Fd1} = ?PRIM_FILE:open(Name, [write]),
?PRIM_FILE:write(Fd1,Str),
ok = ?PRIM_FILE:close(Fd1),
%% Check that we can't write when in read only mode
{ok,Fd2} = ?PRIM_FILE:open(Name, [read]),
case catch ?PRIM_FILE:write(Fd2,"XXXX") of
ok ->
ct:fail({access,write});
_ ->
ok
end,
ok = ?PRIM_FILE:close(Fd2),
{ok, Fd3} = ?PRIM_FILE:open(Name, [read]),
{ok, Str} = ?PRIM_FILE:read(Fd3,length(Str)),
ok = ?PRIM_FILE:close(Fd3),
ok.
%% Tests ?PRIM_FILE:read/2 and ?PRIM_FILE:write/2.
read_write(Config) when is_list(Config) ->
RootDir = proplists:get_value(priv_dir, Config),
NewDir = filename:join(RootDir,
atom_to_list(?MODULE)
++"_read_write"),
ok = ?PRIM_FILE:make_dir(NewDir),
%% Raw file.
Name = filename:join(NewDir, "raw.fil"),
{ok, Fd} = ?PRIM_FILE:open(Name, [read, write]),
read_write_test(Fd),
ok.
read_write_test(File) ->
Marker = "hello, world",
ok = ?PRIM_FILE:write(File, Marker),
{ok, 0} = ?PRIM_FILE:position(File, 0),
{ok, Marker} = ?PRIM_FILE:read(File, 100),
eof = ?PRIM_FILE:read(File, 100),
ok = ?PRIM_FILE:close(File),
ok.
%% Tests ?PRIM_FILE:pread/2 and ?PRIM_FILE:pwrite/2.
pread_write(Config) when is_list(Config) ->
RootDir = proplists:get_value(priv_dir, Config),
NewDir = filename:join(RootDir,
atom_to_list(?MODULE)
++"_pread_write"),
ok = ?PRIM_FILE:make_dir(NewDir),
%% Raw file.
Name = filename:join(NewDir, "raw.fil"),
{ok, Fd} = ?PRIM_FILE:open(Name, [read, write]),
pread_write_test(Fd),
ok.
pread_write_test(File) ->
Marker = "hello, world",
Len = length(Marker),
ok = ?PRIM_FILE:write(File, Marker),
{ok, Marker} = ?PRIM_FILE:pread(File, 0, 100),
eof = ?PRIM_FILE:pread(File, 100, 1),
ok = ?PRIM_FILE:pwrite(File, Len, Marker),
{ok, Marker} = ?PRIM_FILE:pread(File, Len, 100),
eof = ?PRIM_FILE:pread(File, 100, 1),
MM = Marker ++ Marker,
{ok, MM} = ?PRIM_FILE:pread(File, 0, 100),
ok = ?PRIM_FILE:close(File),
ok.
%% Test appending to a file.
append(Config) when is_list(Config) ->
RootDir = proplists:get_value(priv_dir, Config),
NewDir = filename:join(RootDir,
atom_to_list(?MODULE)
++"_append"),
ok = ?PRIM_FILE:make_dir(NewDir),
First = "First line\n",
Second = "Seond lines comes here\n",
Third = "And here is the third line\n",
%% Write a small text file.
Name1 = filename:join(NewDir, "a_file.txt"),
{ok, Fd1} = ?PRIM_FILE:open(Name1, [write]),
ok = ?PRIM_FILE:write(Fd1, First),
ok = ?PRIM_FILE:write(Fd1, Second),
ok = ?PRIM_FILE:close(Fd1),
%% Open it a again and a append a line to it.
{ok, Fd2} = ?PRIM_FILE:open(Name1, [append]),
ok = ?PRIM_FILE:write(Fd2, Third),
ok = ?PRIM_FILE:close(Fd2),
%% Read it back and verify.
Expected = list_to_binary([First, Second, Third]),
{ok, Expected} = ?PRIM_FILE:read_file(Name1),
ok.
%% Test exclusive access to a file.
exclusive(Config) when is_list(Config) ->
RootDir = proplists:get_value(priv_dir,Config),
NewDir = filename:join(RootDir,
atom_to_list(?MODULE)
++"_exclusive"),
ok = ?PRIM_FILE:make_dir(NewDir),
Name = filename:join(NewDir, "ex_file.txt"),
{ok,Fd} = ?PRIM_FILE:open(Name, [write, exclusive]),
{error, eexist} = ?PRIM_FILE:open(Name, [write, exclusive]),
ok = ?PRIM_FILE:close(Fd),
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
pos1(Config) when is_list(Config) ->
RootDir = proplists:get_value(priv_dir,Config),
Name = filename:join(RootDir,
atom_to_list(?MODULE)
++"_pos1.fil"),
{ok, Fd1} = ?PRIM_FILE:open(Name, [write]),
?PRIM_FILE:write(Fd1,"ABCDEFGH"),
ok = ?PRIM_FILE:close(Fd1),
{ok, Fd2} = ?PRIM_FILE:open(Name, [read]),
%% Start pos is first char
io:format("Relative positions"),
{ok, "A"} = ?PRIM_FILE:read(Fd2,1),
{ok, 2} = ?PRIM_FILE:position(Fd2,{cur,1}),
{ok, "C"} = ?PRIM_FILE:read(Fd2,1),
{ok, 0} = ?PRIM_FILE:position(Fd2,{cur,-3}),
{ok, "A"} = ?PRIM_FILE:read(Fd2,1),
%% Backwards from first char should be an error
{ok,0} = ?PRIM_FILE:position(Fd2,{cur,-1}),
{error, einval} = ?PRIM_FILE:position(Fd2,{cur,-1}),
%% Reset position and move again
{ok, 0} = ?PRIM_FILE:position(Fd2,0),
{ok, 2} = ?PRIM_FILE:position(Fd2,{cur,2}),
{ok, "C"} = ?PRIM_FILE:read(Fd2,1),
%% Go a lot forwards
{ok, 13} = ?PRIM_FILE:position(Fd2,{cur,10}),
eof = ?PRIM_FILE:read(Fd2,1),
%% Try some fixed positions
io:format("Fixed positions"),
{ok, 8} = ?PRIM_FILE:position(Fd2,8),
eof = ?PRIM_FILE:read(Fd2,1),
{ok, 8} = ?PRIM_FILE:position(Fd2,cur),
eof = ?PRIM_FILE:read(Fd2,1),
{ok, 7} = ?PRIM_FILE:position(Fd2,7),
{ok, "H"} = ?PRIM_FILE:read(Fd2,1),
{ok, 0} = ?PRIM_FILE:position(Fd2,0),
{ok, "A"} = ?PRIM_FILE:read(Fd2,1),
{ok, 3} = ?PRIM_FILE:position(Fd2,3),
{ok, "D"} = ?PRIM_FILE:read(Fd2,1),
{ok, 12} = ?PRIM_FILE:position(Fd2,12),
eof = ?PRIM_FILE:read(Fd2,1),
{ok, 3} = ?PRIM_FILE:position(Fd2,3),
{ok, "D"} = ?PRIM_FILE:read(Fd2,1),
%% Try the {bof,X} notation
{ok, 3} = ?PRIM_FILE:position(Fd2,{bof,3}),
{ok, "D"} = ?PRIM_FILE:read(Fd2,1),
%% Try eof positions
io:format("EOF positions"),
{ok, 8} = ?PRIM_FILE:position(Fd2,{eof,0}),
eof = ?PRIM_FILE:read(Fd2,1),
{ok, 7} = ?PRIM_FILE:position(Fd2,{eof,-1}),
{ok, "H"} = ?PRIM_FILE:read(Fd2,1),
{ok, 0} = ?PRIM_FILE:position(Fd2,{eof,-8}),
{ok, "A"} = ?PRIM_FILE:read(Fd2,1),
{error, einval} = ?PRIM_FILE:position(Fd2,{eof,-9}),
ok.
pos2(Config) when is_list(Config) ->
RootDir = proplists:get_value(priv_dir,Config),
Name = filename:join(RootDir,
atom_to_list(?MODULE)
++"_pos2.fil"),
{ok,Fd1} = ?PRIM_FILE:open(Name, [write]),
?PRIM_FILE:write(Fd1,"ABCDEFGH"),
ok = ?PRIM_FILE:close(Fd1),
{ok, Fd2} = ?PRIM_FILE:open(Name, [read]),
{error, einval} = ?PRIM_FILE:position(Fd2,-1),
%% Make sure that we still can search after an error.
{ok, 0} = ?PRIM_FILE:position(Fd2, 0),
{ok, 3} = ?PRIM_FILE:position(Fd2, {bof,3}),
{ok, "D"} = ?PRIM_FILE:read(Fd2,1),
io:format("DONE"),
ok.
file_info_basic_file_a(Config) when is_list(Config) ->
file_info_basic_file(Config, [], "_a").
file_info_basic_file_b(Config) when is_list(Config) ->
{ok, Handle} = ?PRIM_FILE:start(),
Result = file_info_basic_file(Config, Handle, "_b"),
ok = ?PRIM_FILE:stop(Handle),
Result.
file_info_basic_file(Config, Handle, Suffix) ->
RootDir = proplists:get_value(priv_dir, Config),
%% Create a short file.
Name = filename:join(RootDir,
atom_to_list(?MODULE)
++"_basic_test"++Suffix++".fil"),
{ok,Fd1} = ?PRIM_FILE:open(Name, [write]),
?PRIM_FILE:write(Fd1, "foo bar"),
ok = ?PRIM_FILE:close(Fd1),
%% Test that the file has the expected attributes.
%% The times are tricky, so we will save them to a separate test case.
{ok, FileInfo} = ?PRIM_FILE_call(read_file_info, Handle, [Name]),
#file_info{size = Size, type = Type, access = Access,
atime = AccessTime, mtime = ModifyTime} =
FileInfo,
io:format("Access ~p, Modify ~p", [AccessTime, ModifyTime]),
Size = 7,
Type = regular,
Access = read_write,
true = abs(time_dist(filter_atime(AccessTime, Config),
filter_atime(ModifyTime,
Config))) < 2,
{AD, AT} = AccessTime,
all_integers(tuple_to_list(AD) ++ tuple_to_list(AT)),
{MD, MT} = ModifyTime,
all_integers(tuple_to_list(MD) ++ tuple_to_list(MT)),
ok.
file_info_basic_directory_a(Config) when is_list(Config) ->
file_info_basic_directory(Config, []).
file_info_basic_directory_b(Config) when is_list(Config) ->
{ok, Handle} = ?PRIM_FILE:start(),
Result = file_info_basic_directory(Config, Handle),
ok = ?PRIM_FILE:stop(Handle),
Result.
file_info_basic_directory(Config, Handle) ->
%% Note: filename:join/1 removes any trailing slash,
%% which is essential for ?PRIM_FILE:read_file_info/1 to work on
%% platforms such as Windows95.
RootDir = filename:join([proplists:get_value(priv_dir, Config)]),
%% Test that the RootDir directory has the expected attributes.
test_directory(RootDir, read_write, Handle),
%% Note that on Windows file systems, "/" or "c:/" are *NOT* directories.
%% Therefore, test that ?PRIM_FILE:read_file_info/1 behaves
%% as if they were directories.
case os:type() of
{win32, _} ->
test_directory("/", read_write, Handle),
test_directory("c:/", read_write, Handle),
test_directory("c:\\", read_write, Handle);
_ ->
test_directory("/", read, Handle)
end,
ok.
test_directory(Name, ExpectedAccess, Handle) ->
{ok, FileInfo} = ?PRIM_FILE_call(read_file_info, Handle, [Name]),
#file_info{size = Size, type = Type, access = Access,
atime = AccessTime, mtime = ModifyTime} =
FileInfo,
io:format("Testing directory ~s", [Name]),
io:format("Directory size is ~p", [Size]),
io:format("Access ~p", [Access]),
io:format("Access time ~p; Modify time~p",
[AccessTime, ModifyTime]),
Type = directory,
Access = ExpectedAccess,
{AD, AT} = AccessTime,
all_integers(tuple_to_list(AD) ++ tuple_to_list(AT)),
{MD, MT} = ModifyTime,
all_integers(tuple_to_list(MD) ++ tuple_to_list(MT)),
ok.
all_integers([Int|Rest]) when is_integer(Int) ->
all_integers(Rest);
all_integers([]) ->
ok.
%% Try something nonexistent.
file_info_bad_a(Config) when is_list(Config) ->
file_info_bad(Config, []).
file_info_bad_b(Config) when is_list(Config) ->
{ok, Handle} = ?PRIM_FILE:start(),
Result = file_info_bad(Config, Handle),
ok = ?PRIM_FILE:stop(Handle),
Result.
file_info_bad(Config, Handle) ->
RootDir = filename:join([proplists:get_value(priv_dir, Config)]),
{error, enoent} =
?PRIM_FILE_call(
read_file_info, Handle,
[filename:join(RootDir,
atom_to_list(?MODULE)++"_nonexistent")]),
ok.
%% Test that the file times behave as they should.
file_info_times_a(Config) when is_list(Config) ->
file_info_times(Config, [], "_a").
file_info_times_b(Config) when is_list(Config) ->
{ok, Handle} = ?PRIM_FILE:start(),
Result = file_info_times(Config, Handle, "_b"),
ok = ?PRIM_FILE:stop(Handle),
Result.
file_info_times(Config, Handle, Suffix) ->
%% We have to try this twice, since if the test runs across the change
%% of a month the time diff calculations will fail. But it won't happen
%% if you run it twice in succession.
test_server:m_out_of_n(
1,2,
fun() -> file_info_int(Config, Handle, Suffix) end),
ok.
file_info_int(Config, Handle, Suffix) ->
%% Note: filename:join/1 removes any trailing slash,
%% which is essential for ?PRIM_FILE:read_file_info/1 to work on
%% platforms such as Windows95.
RootDir = filename:join([proplists:get_value(priv_dir, Config)]),
io:format("RootDir = ~p", [RootDir]),
Name = filename:join(RootDir,
atom_to_list(?MODULE)
++"_file_info"++Suffix++".fil"),
{ok,Fd1} = ?PRIM_FILE:open(Name, [write]),
?PRIM_FILE:write(Fd1,"foo"),
%% check that the file got a modify date max a few seconds away from now
{ok, #file_info{type = regular,
atime = AccTime1, mtime = ModTime1}} =
?PRIM_FILE_call(read_file_info, Handle, [Name]),
Now = erlang:localtime(),
io:format("Now ~p",[Now]),
io:format("Open file Acc ~p Mod ~p",[AccTime1,ModTime1]),
true = abs(time_dist(filter_atime(Now, Config),
filter_atime(AccTime1,
Config))) < 8,
true = abs(time_dist(Now, ModTime1)) < 8,
%% Sleep until we can be sure the seconds value has changed.
%% Note: FAT-based filesystem (like on Windows 95) have
%% a resolution of 2 seconds.
ct:sleep({seconds,2.2}),
%% close the file, and watch the modify date change
ok = ?PRIM_FILE:close(Fd1),
{ok, #file_info{size = Size, type = regular, access = Access,
atime = AccTime2, mtime = ModTime2}} =
?PRIM_FILE_call(read_file_info, Handle, [Name]),
io:format("Closed file Acc ~p Mod ~p",[AccTime2,ModTime2]),
true = time_dist(ModTime1, ModTime2) >= 0,
%% this file is supposed to be binary, so it'd better keep it's size
Size = 3,
Access = read_write,
%% Do some directory checking
{ok, #file_info{size = DSize, type = directory,
access = DAccess,
atime = AccTime3, mtime = ModTime3}} =
?PRIM_FILE_call(read_file_info, Handle, [RootDir]),
%% this dir was modified only a few secs ago
io:format("Dir Acc ~p; Mod ~p; Now ~p",
[AccTime3, ModTime3, Now]),
true = abs(time_dist(Now, ModTime3)) < 5,
DAccess = read_write,
io:format("Dir size is ~p",[DSize]),
ok.
%% Filter access times, to cope with a deficiency of FAT file systems
%% (on Windows): The access time is actually only a date.
filter_atime(Atime, Config) ->
case lists:member(no_access_time, Config) of
true ->
case Atime of
{Date, _} ->
{Date, {0, 0, 0}};
{Y, M, D, _, _, _} ->
{Y, M, D, 0, 0, 0}
end;
false ->
Atime
end.
%% Test the write_file_info/2 function.
file_write_file_info_a(Config) when is_list(Config) ->
file_write_file_info(Config, [], "_a").
file_write_file_info_b(Config) when is_list(Config) ->
{ok, Handle} = ?PRIM_FILE:start(),
Result = file_write_file_info(Config, Handle, "_b"),
ok = ?PRIM_FILE:stop(Handle),
Result.
file_write_file_info(Config, Handle, Suffix) ->
RootDir = get_good_directory(Config),
io:format("RootDir = ~p", [RootDir]),
%% Set the file to read only AND update the file times at the same time.
%% (This used to fail on Windows NT/95 for a local filesystem.)
%% Note: Seconds must be even; see note in file_info_times/1.
Name = filename:join(RootDir,
atom_to_list(?MODULE)
++"_write_file_info_ro"++Suffix),
ok = ?PRIM_FILE:write_file(Name, "hello"),
Time = {{1997, 01, 02}, {12, 35, 42}},
Info = #file_info{mode=8#400, atime=Time, mtime=Time, ctime=Time},
ok = ?PRIM_FILE_call(write_file_info, Handle, [Name, Info]),
%% Read back the times.
{ok, ActualInfo} =
?PRIM_FILE_call(read_file_info, Handle, [Name]),
#file_info{mode=_Mode, atime=ActAtime, mtime=Time,
ctime=ActCtime} = ActualInfo,
FilteredAtime = filter_atime(Time, Config),
FilteredAtime = filter_atime(ActAtime, Config),
case os:type() of
{win32, _} ->
%% On Windows, "ctime" means creation time and it can
%% be set.
ActCtime = Time;
_ ->
ok
end,
{error, eacces} = ?PRIM_FILE:write_file(Name, "hello again"),
%% Make the file writable again.
?PRIM_FILE_call(write_file_info, Handle,
[Name, #file_info{mode=8#600}]),
ok = ?PRIM_FILE:write_file(Name, "hello again"),
%% And unwritable.
?PRIM_FILE_call(write_file_info, Handle,
[Name, #file_info{mode=8#400}]),
{error, eacces} = ?PRIM_FILE:write_file(Name, "hello again"),
%% Write the times again.
%% Note: Seconds must be even; see note in file_info_times/1.
NewTime = {{1997, 02, 15}, {13, 18, 20}},
NewInfo = #file_info{atime=NewTime, mtime=NewTime, ctime=NewTime},
ok = ?PRIM_FILE_call(write_file_info, Handle, [Name, NewInfo]),
{ok, ActualInfo2} =
?PRIM_FILE_call(read_file_info, Handle, [Name]),
#file_info{atime=NewActAtime, mtime=NewTime,
ctime=NewActCtime} = ActualInfo2,
NewFilteredAtime = filter_atime(NewTime, Config),
NewFilteredAtime = filter_atime(NewActAtime, Config),
case os:type() of
{win32, _} -> NewActCtime = NewTime;
_ -> ok
end,
%% The file should still be unwritable.
{error, eacces} = ?PRIM_FILE:write_file(Name, "hello again"),
%% Make the file writeable again, so that we can remove the
%% test suites ... :-)
?PRIM_FILE_call(write_file_info, Handle,
[Name, #file_info{mode=8#600}]),
ok.
%% Test the write_file_info/3 function.
file_write_file_info_opts(Config) when is_list(Config) ->
{ok, Handle} = ?PRIM_FILE:start(),
RootDir = get_good_directory(Config),
io:format("RootDir = ~p", [RootDir]),
Name = filename:join(RootDir, atom_to_list(?MODULE) ++"_write_file_info_opts"),
ok = ?PRIM_FILE:write_file(Name, "hello_opts"),
lists:foreach(fun
({FI, Opts}) ->
ok = ?PRIM_FILE_call(write_file_info, Handle, [Name, FI, Opts])
end, [
{#file_info{ mode=8#600, atime = Time, mtime = Time, ctime = Time}, Opts} ||
Opts <- [[{time, posix}]],
Time <- [ 0,1,-1,100,-100,1000,-1000,10000,-10000 ]
]),
%% REM: determine date range dependent on time_t = Uint32 | Sint32 | Sint64 | Uint64
%% Determine time_t on os:type()?
lists:foreach(fun ({FI, Opts}) ->
ok = ?PRIM_FILE_call(write_file_info, Handle, [Name, FI, Opts])
end, [ {#file_info{ mode=8#400, atime = Time, mtime = Time, ctime = Time}, Opts} ||
Opts <- [[{time, universal}],[{time, local}]],
Time <- [
{{1970,1,1},{0,0,0}},
{{1970,1,1},{0,0,1}},
% {{1969,12,31},{23,59,59}},
% {{1908,2,3},{23,59,59}},
{{2012,2,3},{23,59,59}},
{{2037,2,3},{23,59,59}},
erlang:localtime()
]]),
ok = ?PRIM_FILE:stop(Handle),
ok.
file_read_file_info_opts(Config) when is_list(Config) ->
{ok, Handle} = ?PRIM_FILE:start(),
RootDir = get_good_directory(Config),
io:format("RootDir = ~p", [RootDir]),
Name = filename:join(RootDir, atom_to_list(?MODULE) ++"_read_file_info_opts"),
ok = ?PRIM_FILE:write_file(Name, "hello_opts"),
lists:foreach(fun
(Opts) ->
{ok,_} = ?PRIM_FILE_call(read_file_info, Handle, [Name, Opts])
end, [[{time, Type}] || Type <- [local, universal, posix]]),
ok = ?PRIM_FILE:stop(Handle),
ok.
%% Test the write and read back *_file_info/3 functions.
file_write_read_file_info_opts(Config) when is_list(Config) ->
{ok, Handle} = ?PRIM_FILE:start(),
RootDir = get_good_directory(Config),
io:format("RootDir = ~p", [RootDir]),
Name = filename:join(RootDir, atom_to_list(?MODULE) ++"_read_write_file_info_opts"),
ok = ?PRIM_FILE:write_file(Name, "hello_opts2"),
ok = file_write_read_file_info_opts(Handle, Name, {{1989, 04, 28}, {19,30,22}}, [{time, local}]),
ok = file_write_read_file_info_opts(Handle, Name, {{1989, 04, 28}, {19,30,22}}, [{time, universal}]),
%% will not work on platforms with unsigned time_t
%ok = file_write_read_file_info_opts(Handle, Name, {{1930, 04, 28}, {19,30,22}}, [{time, local}]),
%ok = file_write_read_file_info_opts(Handle, Name, {{1930, 04, 28}, {19,30,22}}, [{time, universal}]),
ok = file_write_read_file_info_opts(Handle, Name, 1, [{time, posix}]),
%% will not work on platforms with unsigned time_t
%ok = file_write_read_file_info_opts(Handle, Name, -1, [{time, posix}]),
%ok = file_write_read_file_info_opts(Handle, Name, -300000, [{time, posix}]),
ok = file_write_read_file_info_opts(Handle, Name, 300000, [{time, posix}]),
ok = file_write_read_file_info_opts(Handle, Name, 0, [{time, posix}]),
ok = ?PRIM_FILE:stop(Handle),
ok.
file_write_read_file_info_opts(Handle, Name, Mtime, Opts) ->
{ok, FI} = ?PRIM_FILE_call(read_file_info, Handle, [Name, Opts]),
FI2 = FI#file_info{ mtime = Mtime },
ok = ?PRIM_FILE_call(write_file_info, Handle, [Name, FI2, Opts]),
{ok, FI3} = ?PRIM_FILE_call(read_file_info, Handle, [Name, Opts]),
io:format("Expecting mtime = ~p, got ~p~n", [FI2#file_info.mtime, FI3#file_info.mtime]),
FI2 = FI3,
ok.
%% Returns a directory on a file system that has correct file times.
get_good_directory(Config) ->
proplists:get_value(priv_dir, Config).
truncate(Config) when is_list(Config) ->
RootDir = proplists:get_value(priv_dir,Config),
Name = filename:join(RootDir,
atom_to_list(?MODULE)
++"_truncate.fil"),
%% Create a file with some data.
MyData = "0123456789abcdefghijklmnopqrstuvxyz",
ok = ?PRIM_FILE:write_file(Name, MyData),
%% Truncate the file to 10 characters.
{ok, Fd} = ?PRIM_FILE:open(Name, [read, write]),
{ok, 10} = ?PRIM_FILE:position(Fd, 10),
ok = ?PRIM_FILE:truncate(Fd),
ok = ?PRIM_FILE:close(Fd),
%% Read back the file and check that it has been truncated.
Expected = list_to_binary("0123456789"),
{ok, Expected} = ?PRIM_FILE:read_file(Name),
%% Open the file read only and verify that it is not possible to
%% truncate it, OTP-1960
{ok, Fd2} = ?PRIM_FILE:open(Name, [read]),
{ok, 5} = ?PRIM_FILE:position(Fd2, 5),
{error, _} = ?PRIM_FILE:truncate(Fd2),
ok.
%% Tests that ?PRIM_FILE:datasync/1 at least doesn't crash.
datasync(Config) when is_list(Config) ->
PrivDir = proplists:get_value(priv_dir, Config),
Sync = filename:join(PrivDir,
atom_to_list(?MODULE)
++"_sync.fil"),
%% Raw open.
{ok, Fd} = ?PRIM_FILE:open(Sync, [write]),
ok = ?PRIM_FILE:datasync(Fd),
ok = ?PRIM_FILE:close(Fd),
ok.
%% Tests that ?PRIM_FILE:sync/1 at least doesn't crash.
sync(Config) when is_list(Config) ->
PrivDir = proplists:get_value(priv_dir, Config),
Sync = filename:join(PrivDir,
atom_to_list(?MODULE)
++"_sync.fil"),
%% Raw open.
{ok, Fd} = ?PRIM_FILE:open(Sync, [write]),
ok = ?PRIM_FILE:sync(Fd),
ok = ?PRIM_FILE:close(Fd),
ok.
%% Tests that ?PRIM_FILE:advise/4 at least doesn't crash.
advise(Config) when is_list(Config) ->
PrivDir = proplists:get_value(priv_dir, Config),
Advise = filename:join(PrivDir,
atom_to_list(?MODULE)
++"_advise.fil"),
Line1 = "Hello\n",
Line2 = "World!\n",
{ok, Fd} = ?PRIM_FILE:open(Advise, [write]),
ok = ?PRIM_FILE:advise(Fd, 0, 0, normal),
ok = ?PRIM_FILE:write(Fd, Line1),
ok = ?PRIM_FILE:write(Fd, Line2),
ok = ?PRIM_FILE:close(Fd),
{ok, Fd2} = ?PRIM_FILE:open(Advise, [write]),
ok = ?PRIM_FILE:advise(Fd2, 0, 0, random),
ok = ?PRIM_FILE:write(Fd2, Line1),
ok = ?PRIM_FILE:write(Fd2, Line2),
ok = ?PRIM_FILE:close(Fd2),
{ok, Fd3} = ?PRIM_FILE:open(Advise, [write]),
ok = ?PRIM_FILE:advise(Fd3, 0, 0, sequential),
ok = ?PRIM_FILE:write(Fd3, Line1),
ok = ?PRIM_FILE:write(Fd3, Line2),
ok = ?PRIM_FILE:close(Fd3),
{ok, Fd4} = ?PRIM_FILE:open(Advise, [write]),
ok = ?PRIM_FILE:advise(Fd4, 0, 0, will_need),
ok = ?PRIM_FILE:write(Fd4, Line1),
ok = ?PRIM_FILE:write(Fd4, Line2),
ok = ?PRIM_FILE:close(Fd4),
{ok, Fd5} = ?PRIM_FILE:open(Advise, [write]),
ok = ?PRIM_FILE:advise(Fd5, 0, 0, dont_need),
ok = ?PRIM_FILE:write(Fd5, Line1),
ok = ?PRIM_FILE:write(Fd5, Line2),
ok = ?PRIM_FILE:close(Fd5),
{ok, Fd6} = ?PRIM_FILE:open(Advise, [write]),
ok = ?PRIM_FILE:advise(Fd6, 0, 0, no_reuse),
ok = ?PRIM_FILE:write(Fd6, Line1),
ok = ?PRIM_FILE:write(Fd6, Line2),
ok = ?PRIM_FILE:close(Fd6),
{ok, Fd7} = ?PRIM_FILE:open(Advise, [write]),
{error, einval} = ?PRIM_FILE:advise(Fd7, 0, 0, bad_advise),
ok = ?PRIM_FILE:close(Fd7),
%% test write without advise, then a read after an advise
{ok, Fd8} = ?PRIM_FILE:open(Advise, [write]),
ok = ?PRIM_FILE:write(Fd8, Line1),
ok = ?PRIM_FILE:write(Fd8, Line2),
ok = ?PRIM_FILE:close(Fd8),
{ok, Fd9} = ?PRIM_FILE:open(Advise, [read]),
Offset = 0,
%% same as a 0 length in some implementations
Length = length(Line1) + length(Line2),
ok = ?PRIM_FILE:advise(Fd9, Offset, Length, sequential),
{ok, Line1} = ?PRIM_FILE:read_line(Fd9),
{ok, Line2} = ?PRIM_FILE:read_line(Fd9),
eof = ?PRIM_FILE:read_line(Fd9),
ok = ?PRIM_FILE:close(Fd9),
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
large_write(Config) when is_list(Config) ->
run_large_file_test(Config,
fun(Name) -> do_large_write(Name) end,
"_large_write").
do_large_write(Name) ->
ChunkSize = (256 bsl 20) + 1, % 256 M + 1
Chunks = 16, % times 16 -> 4 G + 16
Base = 100,
Interleave = lists:seq(Base+1, Base+Chunks),
Chunk = <<0:ChunkSize/unit:8>>,
Data = zip_data(lists:duplicate(Chunks, Chunk), Interleave),
Size = Chunks * ChunkSize + Chunks, % 4 G + 32
Wordsize = erlang:system_info(wordsize),
case prim_file:write_file(Name, Data) of
ok when Wordsize =:= 8 ->
{ok,#file_info{size=Size}} = file:read_file_info(Name),
{ok,Fd} = prim_file:open(Name, [read]),
check_large_write(Fd, ChunkSize, 0, Interleave);
{error,einval} when Wordsize =:= 4 ->
ok
end.
check_large_write(Fd, ChunkSize, Pos, [X|Interleave]) ->
Pos1 = Pos + ChunkSize,
{ok,Pos1} = prim_file:position(Fd, {cur,ChunkSize}),
{ok,[X]} = prim_file:read(Fd, 1),
check_large_write(Fd, ChunkSize, Pos1+1, Interleave);
check_large_write(Fd, _, _, []) ->
eof = prim_file:read(Fd, 1),
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% Tests that ?PRIM_FILE:allocate/3 at least doesn't crash.
allocate(Config) when is_list(Config) ->
PrivDir = proplists:get_value(priv_dir, Config),
Allocate = filename:join(PrivDir,
atom_to_list(?MODULE)
++"_allocate.fil"),
Line1 = "Hello\n",
Line2 = "World!\n",
{ok, Fd} = ?PRIM_FILE:open(Allocate, [write, binary]),
allocate_and_assert(Fd, 1, iolist_size([Line1, Line2])),
ok = ?PRIM_FILE:write(Fd, Line1),
ok = ?PRIM_FILE:write(Fd, Line2),
ok = ?PRIM_FILE:close(Fd),
{ok, Fd2} = ?PRIM_FILE:open(Allocate, [write, binary]),
allocate_and_assert(Fd2, 1, iolist_size(Line1)),
ok = ?PRIM_FILE:write(Fd2, Line1),
ok = ?PRIM_FILE:write(Fd2, Line2),
ok = ?PRIM_FILE:close(Fd2),
{ok, Fd3} = ?PRIM_FILE:open(Allocate, [write, binary]),
allocate_and_assert(Fd3, 1, iolist_size(Line1) + 1),
ok = ?PRIM_FILE:write(Fd3, Line1),
ok = ?PRIM_FILE:write(Fd3, Line2),
ok = ?PRIM_FILE:close(Fd3),
{ok, Fd4} = ?PRIM_FILE:open(Allocate, [write, binary]),
allocate_and_assert(Fd4, 1, 4 * iolist_size([Line1, Line2])),
ok = ?PRIM_FILE:write(Fd4, Line1),
ok = ?PRIM_FILE:write(Fd4, Line2),
ok = ?PRIM_FILE:close(Fd4),
ok.
allocate_and_assert(Fd, Offset, Length) ->
%% Just verify that calls to ?PRIM_FILE:allocate/3 don't crash or have
%% any other negative side effect. We can't really asssert against a
%% specific return value, because support for file space pre-allocation
%% depends on the OS, OS version and underlying filesystem.
%%
%% The Linux kernel added support for fallocate() in version 2.6.23,
%% which currently works only for the ext4, ocfs2, xfs and btrfs file
%% systems. posix_fallocate() is available in glibc as of version
%% 2.1.94, but it was buggy until glibc version 2.7.
%%
%% Mac OS X, as of version 10.3, supports the fcntl operation F_PREALLOCATE.
%%
%% Solaris supports posix_fallocate() but only for the UFS file system
%% apparently (not supported for ZFS).
%%
%% FreeBSD 9.0 is the first FreeBSD release supporting posix_fallocate().
%%
%% For Windows there's apparently no way to pre-allocate file space, at
%% least with similar API/semantics as posix_fallocate(), fallocate() or
%% fcntl F_PREALLOCATE.
Result = ?PRIM_FILE:allocate(Fd, Offset, Length),
case os:type() of
{win32, _} ->
{error, enotsup} = Result;
_ ->
_ = Result
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
delete_a(Config) when is_list(Config) ->
delete(Config, [], "_a").
delete_b(Config) when is_list(Config) ->
{ok, Handle} = ?PRIM_FILE:start(),
Result = delete(Config, Handle, "_b"),
ok = ?PRIM_FILE:stop(Handle),
Result.
delete(Config, Handle, Suffix) ->
RootDir = proplists:get_value(priv_dir,Config),
Name = filename:join(RootDir,
atom_to_list(?MODULE)
++"_delete"++Suffix++".fil"),
{ok, Fd1} = ?PRIM_FILE:open(Name, [write]),
?PRIM_FILE:write(Fd1,"ok.\n"),
ok = ?PRIM_FILE:close(Fd1),
%% Check that the file is readable
{ok, Fd2} = ?PRIM_FILE:open(Name, [read]),
ok = ?PRIM_FILE:close(Fd2),
ok = ?PRIM_FILE_call(delete, Handle, [Name]),
%% Check that the file is not readable anymore
{error, _} = ?PRIM_FILE:open(Name, [read]),
%% Try deleting a nonexistent file
{error, enoent} = ?PRIM_FILE_call(delete, Handle, [Name]),
ok.
rename_a(Config) when is_list(Config) ->
rename(Config, [], "_a").
rename_b(Config) when is_list(Config) ->
{ok, Handle} = ?PRIM_FILE:start(),
Result = rename(Config, Handle, "_b"),
ok = ?PRIM_FILE:stop(Handle),
Result.
rename(Config, Handle, Suffix) ->
RootDir = proplists:get_value(priv_dir,Config),
FileName1 = atom_to_list(?MODULE)++"_rename"++Suffix++".fil",
FileName2 = atom_to_list(?MODULE)++"_rename"++Suffix++".ful",
Name1 = filename:join(RootDir, FileName1),
Name2 = filename:join(RootDir, FileName2),
{ok,Fd1} = ?PRIM_FILE:open(Name1, [write]),
ok = ?PRIM_FILE:close(Fd1),
%% Rename, and check that it really changed name
ok = ?PRIM_FILE_call(rename, Handle, [Name1, Name2]),
{error, _} = ?PRIM_FILE:open(Name1, [read]),
{ok, Fd2} = ?PRIM_FILE:open(Name2, [read]),
ok = ?PRIM_FILE:close(Fd2),
%% Try renaming something to itself
ok = ?PRIM_FILE_call(rename, Handle, [Name2, Name2]),
%% Try renaming something that doesn't exist
{error, enoent} =
?PRIM_FILE_call(rename, Handle, [Name1, Name2]),
%% Try renaming to something else than a string
{error, badarg} =
?PRIM_FILE_call(rename, Handle, [Name1, foobar]),
%% Move between directories
DirName1 = filename:join(RootDir,
atom_to_list(?MODULE)
++"_rename_dir"++Suffix),
DirName2 = filename:join(RootDir,
atom_to_list(?MODULE)
++"_second_rename_dir"++Suffix),
Name1foo = filename:join(DirName1, "foo.fil"),
Name2foo = filename:join(DirName2, "foo.fil"),
Name2bar = filename:join(DirName2, "bar.dir"),
ok = ?PRIM_FILE:make_dir(DirName1),
%% The name has to include the full file name, path is not enough
expect(
{error, eexist}, {error, eisdir},
?PRIM_FILE_call(rename, Handle, [Name2, DirName1])),
ok =
?PRIM_FILE_call(rename, Handle, [Name2, Name1foo]),
%% Now rename the directory
ok = ?PRIM_FILE_call(rename, Handle, [DirName1, DirName2]),
%% And check that the file is there now
{ok,Fd3} = ?PRIM_FILE:open(Name2foo, [read]),
ok = ?PRIM_FILE:close(Fd3),
%% Try some dirty things now: move the directory into itself
{error, Msg1} =
?PRIM_FILE_call(rename, Handle, [DirName2, Name2bar]),
io:format("Errmsg1: ~p",[Msg1]),
%% move dir into a file in itself
{error, Msg2} =
?PRIM_FILE_call(rename, Handle, [DirName2, Name2foo]),
io:format("Errmsg2: ~p",[Msg2]),
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
e_delete(Config) when is_list(Config) ->
RootDir = proplists:get_value(priv_dir, Config),
Base = filename:join(RootDir,
atom_to_list(?MODULE)++"_e_delete"),
ok = ?PRIM_FILE:make_dir(Base),
%% Delete a non-existing file.
{error, enoent} =
?PRIM_FILE:delete(filename:join(Base, "non_existing")),
%% Delete a directory.
{error, eperm} = ?PRIM_FILE:delete(Base),
%% Use a path-name with a non-directory component.
Afile = filename:join(Base, "a_file"),
ok = ?PRIM_FILE:write_file(Afile, "hello\n"),
{error, E} =
expect(
{error, enotdir}, {error, enoent},
?PRIM_FILE:delete(filename:join(Afile, "another_file"))),
io:format("Result: ~p~n", [E]),
%% No permission.
case os:type() of
{win32, _} ->
%% Remove a character device.
{error, eacces} = ?PRIM_FILE:delete("nul");
_ ->
?PRIM_FILE:write_file_info(
Base, #file_info {mode=0}),
{error, eacces} = ?PRIM_FILE:delete(Afile),
?PRIM_FILE:write_file_info(
Base, #file_info {mode=8#600})
end,
ok.
%%% FreeBSD gives EEXIST when renaming a file to an empty dir, although the
%%% manual page can be interpreted as saying that EISDIR should be given.
%%% (What about FreeBSD? We store our nightly build results on a FreeBSD
%%% file system, that's what.)
e_rename(Config) when is_list(Config) ->
RootDir = proplists:get_value(priv_dir, Config),
Base = filename:join(RootDir,
atom_to_list(?MODULE)++"_e_rename"),
ok = ?PRIM_FILE:make_dir(Base),
%% Create an empty directory.
EmptyDir = filename:join(Base, "empty_dir"),
ok = ?PRIM_FILE:make_dir(EmptyDir),
%% Create a non-empty directory.
NonEmptyDir = filename:join(Base, "non_empty_dir"),
ok = ?PRIM_FILE:make_dir(NonEmptyDir),
ok = ?PRIM_FILE:write_file(
filename:join(NonEmptyDir, "a_file"),
"hello\n"),
%% Create another non-empty directory.
ADirectory = filename:join(Base, "a_directory"),
ok = ?PRIM_FILE:make_dir(ADirectory),
ok = ?PRIM_FILE:write_file(
filename:join(ADirectory, "a_file"),
"howdy\n\n"),
%% Create a data file.
File = filename:join(Base, "just_a_file"),
ok = ?PRIM_FILE:write_file(File, "anything goes\n\n"),
%% Move an existing directory to a non-empty directory.
{error, eexist} =
?PRIM_FILE:rename(ADirectory, NonEmptyDir),
%% Move a root directory.
{error, einval} = ?PRIM_FILE:rename("/", "arne"),
%% Move Base into Base/new_name.
{error, einval} =
?PRIM_FILE:rename(Base, filename:join(Base, "new_name")),
%% Overwrite a directory with a file.
expect({error, eexist}, % FreeBSD (?)
{error, eisdir},
?PRIM_FILE:rename(File, EmptyDir)),
expect({error, eexist}, % FreeBSD (?)
{error, eisdir},
?PRIM_FILE:rename(File, NonEmptyDir)),
%% Move a non-existing file.
NonExistingFile = filename:join(
Base, "non_existing_file"),
{error, enoent} =
?PRIM_FILE:rename(NonExistingFile, NonEmptyDir),
%% Overwrite a file with a directory.
expect({error, eexist}, % FreeBSD (?)
{error, enotdir},
?PRIM_FILE:rename(ADirectory, File)),
%% Move a file to another filesystem.
%% XXX - This test case is bogus. We cannot be guaranteed that
%% the source and destination are on
%% different filesystems.
%%
%% XXX - Gross hack!
Comment =
case os:type() of
{win32, _} ->
%% At least Windows NT can
%% successfully move a file to
%% another drive.
ok;
_ ->
OtherFs = "/tmp",
NameOnOtherFs =
filename:join(OtherFs,
filename:basename(File)),
{ok, Com} =
case ?PRIM_FILE:rename(
File, NameOnOtherFs) of
{error, exdev} ->
%% The file could be in
%% the same filesystem!
{ok, ok};
ok ->
{ok, {comment,
"Moving between filesystems "
"suceeded, files are probably "
"in the same filesystem!"}};
{error, eperm} ->
{ok, {comment, "SBS! You don't "
"have the permission to do "
"this test!"}};
Else ->
Else
end,
Com
end,
Comment.
e_make_dir(Config) when is_list(Config) ->
RootDir = proplists:get_value(priv_dir, Config),
Base = filename:join(RootDir,
atom_to_list(?MODULE)++"_e_make_dir"),
ok = ?PRIM_FILE:make_dir(Base),
%% A component of the path does not exist.
{error, enoent} =
?PRIM_FILE:make_dir(filename:join([Base, "a", "b"])),
%% Use a path-name with a non-directory component.
Afile = filename:join(Base, "a_directory"),
ok = ?PRIM_FILE:write_file(Afile, "hello\n"),
case ?PRIM_FILE:make_dir(
filename:join(Afile, "another_directory")) of
{error, enotdir} -> io:format("Result: enotdir");
{error, enoent} -> io:format("Result: enoent")
end,
%% No permission (on Unix only).
case os:type() of
{win32, _} ->
ok;
_ ->
?PRIM_FILE:write_file_info(Base, #file_info {mode=0}),
{error, eacces} =
?PRIM_FILE:make_dir(filename:join(Base, "xxxx")),
?PRIM_FILE:write_file_info(Base, #file_info {mode=8#600})
end,
ok.
e_del_dir(Config) when is_list(Config) ->
RootDir = proplists:get_value(priv_dir, Config),
Base = filename:join(RootDir,
atom_to_list(?MODULE)++"_e_del_dir"),
io:format("Base: ~p", [Base]),
ok = ?PRIM_FILE:make_dir(Base),
%% Delete a non-existent directory.
{error, enoent} =
?PRIM_FILE:del_dir(filename:join(Base, "non_existing")),
%% Use a path-name with a non-directory component.
Afile = filename:join(Base, "a_directory"),
ok = ?PRIM_FILE:write_file(Afile, "hello\n"),
{error, E1} =
expect({error, enotdir}, {error, enoent},
?PRIM_FILE:del_dir(
filename:join(Afile, "another_directory"))),
io:format("Result: ~p", [E1]),
%% Delete a non-empty directory.
%% Delete a non-empty directory.
{error, E2} =
expect({error, enotempty}, {error, eexist}, {error, eacces},
?PRIM_FILE:del_dir(Base)),
io:format("Result: ~p", [E2]),
%% Remove the current directory.
{error, E3} =
expect({error, einval},
{error, eperm}, % Linux and DUX
{error, eacces},
{error, ebusy},
?PRIM_FILE:del_dir(".")),
io:format("Result: ~p", [E3]),
%% No permission.
case os:type() of
{win32, _} ->
ok;
_ ->
ADirectory = filename:join(Base, "no_perm"),
ok = ?PRIM_FILE:make_dir(ADirectory),
?PRIM_FILE:write_file_info(Base, #file_info {mode=0}),
{error, eacces} = ?PRIM_FILE:del_dir(ADirectory),
?PRIM_FILE:write_file_info(
Base, #file_info {mode=8#600})
end,
ok.
%% Trying reading and positioning from a compressed file.
read_compressed(Config) when is_list(Config) ->
Data = proplists:get_value(data_dir, Config),
Real = filename:join(Data, "realmen.html.gz"),
{ok, Fd} = ?PRIM_FILE:open(Real, [read, compressed]),
try_read_file(Fd).
%% Trying reading and positioning from an uncompressed file,
%% but with the compressed flag given.
read_not_really_compressed(Config) when is_list(Config) ->
Data = proplists:get_value(data_dir, Config),
Priv = proplists:get_value(priv_dir, Config),
%% The file realmen.html might have got CRs added (by WinZip).
%% Remove them, or the file positions will not be correct.
Real = filename:join(Data, "realmen.html"),
RealPriv = filename:join(Priv,
atom_to_list(?MODULE)++"_realmen.html"),
{ok, RealDataBin} = ?PRIM_FILE:read_file(Real),
RealData = remove_crs(binary_to_list(RealDataBin), []),
ok = ?PRIM_FILE:write_file(RealPriv, RealData),
{ok, Fd} = ?PRIM_FILE:open(RealPriv, [read, compressed]),
try_read_file(Fd).
remove_crs([$\r|Rest], Result) ->
remove_crs(Rest, Result);
remove_crs([C|Rest], Result) ->
remove_crs(Rest, [C|Result]);
remove_crs([], Result) ->
lists:reverse(Result).
try_read_file(Fd) ->
%% Seek to the current position (nothing should happen).
{ok, 0} = ?PRIM_FILE:position(Fd, 0),
{ok, 0} = ?PRIM_FILE:position(Fd, {cur, 0}),
%% Read a few lines from a compressed file.
ShouldBe = "Real Programmers Don't Use PASCAL\n",
{ok, ShouldBe} = ?PRIM_FILE:read(Fd, length(ShouldBe)),
%% Now seek forward.
{ok, 381} = ?PRIM_FILE:position(Fd, 381),
Back = "Back in the good old days -- the \"Golden Era\" " ++
"of computers, it was\n",
{ok, Back} = ?PRIM_FILE:read(Fd, length(Back)),
%% Try to search forward relative to the current position.
{ok, CurPos} = ?PRIM_FILE:position(Fd, {cur, 0}),
RealPos = 4273,
{ok, RealPos} = ?PRIM_FILE:position(Fd, {cur, RealPos-CurPos}),
RealProg = " Real Programmers aren't afraid to use GOTOs.\n",
{ok, RealProg} = ?PRIM_FILE:read(Fd, length(RealProg)),
%% Seek backward.
AfterTitle = length(""),
{ok, AfterTitle} = ?PRIM_FILE:position(Fd, AfterTitle),
Title = "Real Programmers Don't Use PASCAL\n",
{ok, Title} = ?PRIM_FILE:read(Fd, length(Title)),
%% Done.
?PRIM_FILE:close(Fd),
ok.
write_compressed(Config) when is_list(Config) ->
Priv = proplists:get_value(priv_dir, Config),
MyFile = filename:join(Priv,
atom_to_list(?MODULE)++"_test.gz"),
%% Write a file.
{ok, Fd} = ?PRIM_FILE:open(MyFile, [write, compressed]),
{ok, 0} = ?PRIM_FILE:position(Fd, 0),
Prefix = "hello\n",
End = "end\n",
ok = ?PRIM_FILE:write(Fd, Prefix),
{ok, 143} = ?PRIM_FILE:position(Fd, 143),
ok = ?PRIM_FILE:write(Fd, End),
ok = ?PRIM_FILE:close(Fd),
%% Read the file and verify the contents.
{ok, Fd1} = ?PRIM_FILE:open(MyFile, [read, compressed]),
{ok, Prefix} = ?PRIM_FILE:read(Fd1, length(Prefix)),
Second = lists:duplicate(143-length(Prefix), 0) ++ End,
{ok, Second} = ?PRIM_FILE:read(Fd1, length(Second)),
ok = ?PRIM_FILE:close(Fd1),
%% Ensure that the file is compressed.
TotalSize = 143 + length(End),
case ?PRIM_FILE:read_file_info(MyFile) of
{ok, #file_info{size=Size}} when Size < TotalSize ->
ok;
{ok, #file_info{size=Size}} when Size == TotalSize ->
ct:fail(file_not_compressed)
end,
%% Write again to ensure that the file is truncated.
{ok, Fd2} = ?PRIM_FILE:open(MyFile, [write, compressed]),
NewString = "aaaaaaaaaaa",
ok = ?PRIM_FILE:write(Fd2, NewString),
ok = ?PRIM_FILE:close(Fd2),
{ok, Fd3} = ?PRIM_FILE:open(MyFile, [read, compressed]),
{ok, NewString} = ?PRIM_FILE:read(Fd3, 1024),
ok = ?PRIM_FILE:close(Fd3),
ok.
compress_errors(Config) when is_list(Config) ->
Data = proplists:get_value(data_dir, Config),
{error, enoent} = ?PRIM_FILE:open("non_existing__",
[compressed, read]),
{error, einval} = ?PRIM_FILE:open("non_existing__",
[compressed, read, write]),
%% Read a corrupted .gz file.
Corrupted = filename:join(Data, "corrupted.gz"),
{ok, Fd} = ?PRIM_FILE:open(Corrupted, [read, compressed]),
{error, eio} = ?PRIM_FILE:read(Fd, 100),
?PRIM_FILE:close(Fd),
ok.
%% Test creating a hard link.
make_link_a(Config) when is_list(Config) ->
make_link(Config, [], "_a").
%% Test creating a hard link.
make_link_b(Config) when is_list(Config) ->
{ok, Handle} = ?PRIM_FILE:start(),
Result = make_link(Config, Handle, "_b"),
ok = ?PRIM_FILE:stop(Handle),
Result.
make_link(Config, Handle, Suffix) ->
RootDir = proplists:get_value(priv_dir, Config),
NewDir = filename:join(RootDir,
atom_to_list(?MODULE)
++"_make_link"++Suffix),
ok = ?PRIM_FILE_call(make_dir, Handle, [NewDir]),
Name = filename:join(NewDir, "a_file"),
ok = ?PRIM_FILE:write_file(Name, "some contents\n"),
Alias = filename:join(NewDir, "an_alias"),
Result =
case ?PRIM_FILE_call(make_link, Handle, [Name, Alias]) of
{error, enotsup} ->
{skipped, "Links not supported on this platform"};
ok ->
%% Note: We take the opportunity to test
%% ?PRIM_FILE:read_link_info/1,
%% which should in behave exactly as
%% ?PRIM_FILE:read_file_info/1
%% since they are not used on symbolic links.
{ok, Info} =
?PRIM_FILE_call(read_link_info, Handle, [Name]),
{ok, Info} =
?PRIM_FILE_call(read_link_info, Handle, [Alias]),
#file_info{links = 2, type = regular} = Info,
{error, eexist} =
?PRIM_FILE_call(make_link, Handle, [Name, Alias]),
ok
end,
Result.
%% Test that reading link info for an ordinary file or directory works
%% (on all platforms).
read_link_info_for_non_link(Config) when is_list(Config) ->
{ok, #file_info{type=directory}} = ?PRIM_FILE:read_link_info("."),
ok.
%% Test operations on symbolic links (for Unix).
symlinks_a(Config) when is_list(Config) ->
symlinks(Config, [], "_a").
%% Test operations on symbolic links (for Unix).
symlinks_b(Config) when is_list(Config) ->
{ok, Handle} = ?PRIM_FILE:start(),
Result = symlinks(Config, Handle, "_b"),
ok = ?PRIM_FILE:stop(Handle),
Result.
symlinks(Config, Handle, Suffix) ->
RootDir = proplists:get_value(priv_dir, Config),
NewDir = filename:join(RootDir,
atom_to_list(?MODULE)
++"_make_symlink"++Suffix),
ok = ?PRIM_FILE_call(make_dir, Handle, [NewDir]),
Name = filename:join(NewDir, "a_plain_file"),
ok = ?PRIM_FILE:write_file(Name, "some stupid content\n"),
Alias = filename:join(NewDir, "a_symlink_alias"),
Result =
case ?PRIM_FILE_call(make_symlink, Handle, [Name, Alias]) of
{error, enotsup} ->
{skipped, "Links not supported on this platform"};
{error, eperm} ->
{win32,_} = os:type(),
{skipped, "Windows user not privileged to create links"};
ok ->
{ok, Info1} =
?PRIM_FILE_call(read_file_info, Handle, [Name]),
{ok, Info1} =
?PRIM_FILE_call(read_file_info, Handle, [Alias]),
{ok, Info1} =
?PRIM_FILE_call(read_link_info, Handle, [Name]),
#file_info{links = 1, type = regular} = Info1,
{ok, Info2} =
?PRIM_FILE_call(read_link_info, Handle, [Alias]),
#file_info{links=1, type=symlink} = Info2,
{ok, Name} =
?PRIM_FILE_call(read_link, Handle, [Alias]),
{ok, Name} =
?PRIM_FILE_call(read_link_all, Handle, [Alias]),
%% If all is good, delete dir again (avoid hanging dir on windows)
rm_rf(?PRIM_FILE,NewDir),
ok
end,
Result.
%% Creates as many files as possible during a certain time,
%% periodically calls list_dir/2 to check if it works,
%% then deletes all files.
%% Tests if large directories can be read.
list_dir_limit(Config) when is_list(Config) ->
MaxTime = 120,
MaxNumber = 20000,
ct:timetrap({seconds,2*MaxTime + MaxTime}),
RootDir = proplists:get_value(priv_dir, Config),
NewDir = filename:join(RootDir,
atom_to_list(?MODULE)++"_list_dir_limit"),
{ok, Handle1} = ?PRIM_FILE:start(),
ok = ?PRIM_FILE_call(make_dir, Handle1, [NewDir]),
Ref = erlang:start_timer(MaxTime*1000, self(), []),
Result = list_dir_limit_loop(NewDir, Handle1, Ref, MaxNumber, 0),
Time = case erlang:cancel_timer(Ref) of
false -> MaxTime;
T -> MaxTime - (T div 1000)
end,
Number = case Result of
{ok, N} -> N;
{error, _Reason, N} -> N;
_ -> 0
end,
{ok, Handle2} = ?PRIM_FILE:start(),
list_dir_limit_cleanup(NewDir, Handle2, Number, 0),
ok = ?PRIM_FILE:stop(Handle1),
ok = ?PRIM_FILE:stop(Handle2),
{ok, Number} = Result,
{comment,
"Created " ++ integer_to_list(Number) ++ " files in "
++ integer_to_list(Time) ++ " seconds."}.
list_dir_limit_loop(Dir, Handle, _Ref, N, Cnt) when Cnt >= N ->
list_dir_check(Dir, Handle, Cnt);
list_dir_limit_loop(Dir, Handle, Ref, N, Cnt) ->
receive
{timeout, Ref, []} ->
list_dir_check(Dir, Handle, Cnt)
after 0 ->
Name = integer_to_list(Cnt),
case ?PRIM_FILE:write_file(filename:join(Dir, Name), Name) of
ok ->
Next = Cnt + 1,
case Cnt rem 100 of
0 ->
case list_dir_check(Dir, Handle, Next) of
{ok, Next} ->
list_dir_limit_loop(
Dir, Handle, Ref, N, Next);
Other ->
Other
end;
_ ->
list_dir_limit_loop(Dir, Handle, Ref, N, Next)
end;
{error, Reason} ->
{error, Reason, Cnt}
end
end.
list_dir_check(Dir, Handle, Cnt) ->
case ?PRIM_FILE:list_dir(Handle, Dir) of
{ok, ListDir} ->
case length(ListDir) of
Cnt ->
{ok, Cnt};
X ->
{error,
{wrong_nof_files, X, ?LINE},
Cnt}
end;
{error, Reason} ->
{error, Reason, Cnt}
end.
%% Deletes N files while ignoring errors, then continues deleting
%% as long as they exist.
list_dir_limit_cleanup(Dir, Handle, N, Cnt) when Cnt >= N ->
Name = integer_to_list(Cnt),
case ?PRIM_FILE:delete(Handle, filename:join(Dir, Name)) of
ok ->
list_dir_limit_cleanup(Dir, Handle, N, Cnt+1);
_ ->
ok
end;
list_dir_limit_cleanup(Dir, Handle, N, Cnt) ->
Name = integer_to_list(Cnt),
?PRIM_FILE:delete(Handle, filename:join(Dir, Name)),
list_dir_limit_cleanup(Dir, Handle, N, Cnt+1).
%%%
%%% Test list_dir() on a non-existing pathname.
%%%
list_dir_error(Config) ->
Priv = proplists:get_value(priv_dir, Config),
NonExisting = filename:join(Priv, "non-existing-dir"),
{error,enoent} = prim_file:list_dir(NonExisting),
ok.
%%%
%%% Test list_dir() and list_dir_all().
%%%
list_dir(Config) ->
RootDir = proplists:get_value(priv_dir, Config),
TestDir = filename:join(RootDir, ?MODULE_STRING++"_list_dir"),
?PRIM_FILE:make_dir(TestDir),
list_dir_1(TestDir, 42, []).
list_dir_1(TestDir, 0, Sorted) ->
[ok = ?PRIM_FILE:delete(filename:join(TestDir, F)) ||
F <- Sorted],
ok = ?PRIM_FILE:del_dir(TestDir);
list_dir_1(TestDir, Cnt, Sorted0) ->
Base = "file" ++ integer_to_list(Cnt),
Name = filename:join(TestDir, Base),
ok = ?PRIM_FILE:write_file(Name, Base),
Sorted = lists:merge([Base], Sorted0),
{ok,DirList0} = ?PRIM_FILE:list_dir(TestDir),
{ok,DirList1} = ?PRIM_FILE:list_dir_all(TestDir),
Sorted = lists:sort(DirList0),
Sorted = lists:sort(DirList1),
list_dir_1(TestDir, Cnt-1, Sorted).
%%%
%%% Support for testing large files.
%%%
run_large_file_test(Config, Run, Name) ->
case {os:type(),os:version()} of
{{win32,nt},_} ->
do_run_large_file_test(Config, Run, Name);
{{unix,sunos},OsVersion} when OsVersion < {5,5,1} ->
{skip,"Only supported on Win32, Unix or SunOS >= 5.5.1"};
{{unix,_},_} ->
N = unix_free(proplists:get_value(priv_dir, Config)),
io:format("Free disk: ~w KByte~n", [N]),
if N < 5 bsl 20 ->
%% Less than 5 GByte free
{skip,"Less than 5 GByte free disk"};
true ->
do_run_large_file_test(Config, Run, Name)
end;
_ ->
{skip,"Only supported on Win32, Unix or SunOS >= 5.5.1"}
end.
do_run_large_file_test(Config, Run, Name0) ->
Name = filename:join(proplists:get_value(priv_dir, Config),
?MODULE_STRING ++ Name0),
%% Set up a process that will delete this file.
Tester = self(),
Deleter =
spawn(
fun() ->
Mref = erlang:monitor(process, Tester),
receive
{'DOWN',Mref,_,_,_} -> ok;
{Tester,done} -> ok
end,
prim_file:delete(Name)
end),
%% Run the test case.
Res = Run(Name),
%% Delete file and finish deleter process.
Mref = erlang:monitor(process, Deleter),
Deleter ! {Tester,done},
receive {'DOWN',Mref,_,_,_} -> ok end,
Res.
unix_free(Path) ->
Cmd = ["df -k '",Path,"'"],
DF0 = os:cmd(Cmd),
io:format("$ ~s~n~s", [Cmd,DF0]),
Lines = re:split(DF0, "\n", [trim,{return,list}]),
Last = lists:last(Lines),
RE = "^[^\\s]*\\s+\\d+\\s+\\d+\\s+(\\d+)",
{match,[Avail]} = re:run(Last, RE, [{capture,all_but_first,list}]),
list_to_integer(Avail).
zip_data([A|As], [B|Bs]) ->
[[A,B]|zip_data(As, Bs)];
zip_data([], Bs) ->
Bs;
zip_data(As, []) ->
As.
%%%-----------------------------------------------------------------
%%% Utilities
rm_rf(Mod,Dir) ->
case Mod:read_link_info(Dir) of
{ok, #file_info{type = directory}} ->
{ok, Content} = Mod:list_dir_all(Dir),
[ rm_rf(Mod,filename:join(Dir,C)) || C <- Content ],
Mod:del_dir(Dir),
ok;
{ok, #file_info{}} ->
Mod:delete(Dir);
_ ->
ok
end.