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path: root/lib/stdlib/src/erl_tar.erl
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%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1997-2017. 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%
%%
%% This module implements extraction/creation of tar archives.
%% It supports reading most common tar formats, namely V7, STAR,
%% USTAR, GNU, BSD/libarchive, and PAX. It produces archives in USTAR
%% format, unless it must use PAX headers, in which case it produces PAX
%% format.
%%
%% The following references where used:
%%   http://www.freebsd.org/cgi/man.cgi?query=tar&sektion=5
%%   http://www.gnu.org/software/tar/manual/html_node/Standard.html
%%   http://pubs.opengroup.org/onlinepubs/9699919799/utilities/pax.html
-module(erl_tar).

-export([init/3,
         create/2, create/3,
         extract/1, extract/2,
         table/1, table/2, t/1, tt/1,
         open/2, close/1,
         add/3, add/4,
         format_error/1]).

-include_lib("kernel/include/file.hrl").
-include_lib("erl_tar.hrl").

%% Converts the short error reason to a descriptive string.
-spec format_error(term()) -> string().
format_error(invalid_tar_checksum) ->
    "Checksum failed";
format_error(bad_header) ->
    "Unrecognized tar header format";
format_error({bad_header, Reason}) ->
    lists:flatten(io_lib:format("Unrecognized tar header format: ~p", [Reason]));
format_error({invalid_header, negative_size}) ->
    "Invalid header: negative size";
format_error(invalid_sparse_header_size) ->
    "Invalid sparse header: negative size";
format_error(invalid_sparse_map_entry) ->
    "Invalid sparse map entry";
format_error({invalid_sparse_map_entry, Reason}) ->
    lists:flatten(io_lib:format("Invalid sparse map entry: ~p", [Reason]));
format_error(invalid_end_of_archive) ->
    "Invalid end of archive";
format_error(eof) ->
    "Unexpected end of file";
format_error(integer_overflow) ->
    "Failed to parse numeric: integer overflow";
format_error({misaligned_read, Pos}) ->
    lists:flatten(io_lib:format("Read a block which was misaligned: block_size=~p pos=~p",
                                [?BLOCK_SIZE, Pos]));
format_error(invalid_gnu_1_0_sparsemap) ->
    "Invalid GNU sparse map (version 1.0)";
format_error({invalid_gnu_0_1_sparsemap, Format}) ->
    lists:flatten(io_lib:format("Invalid GNU sparse map (version ~s)", [Format]));
format_error({Name,Reason}) ->
    lists:flatten(io_lib:format("~ts: ~ts", [Name,format_error(Reason)]));
format_error(Atom) when is_atom(Atom) ->
    file:format_error(Atom);
format_error(Term) ->
    lists:flatten(io_lib:format("~tp", [Term])).

%% Initializes a new reader given a custom file handle and I/O wrappers
-spec init(handle(), write | read, file_op()) -> {ok, reader()} | {error, badarg}.
init(Handle, AccessMode, Fun) when is_function(Fun, 2) ->
    Reader = #reader{handle=Handle,access=AccessMode,func=Fun},
    {ok, Pos, Reader2} = do_position(Reader, {cur, 0}),
    {ok, Reader2#reader{pos=Pos}};
init(_Handle, _AccessMode, _Fun) ->
    {error, badarg}.

%%%================================================================
%% Extracts all files from the tar file Name.
-spec extract(open_handle()) -> ok | {error, term()}.
extract(Name) ->
    extract(Name, []).

%% Extracts (all) files from the tar file Name.
%% Options accepted:
%%  - cooked: Opens the tar file without mode `raw`
%%  - compressed: Uncompresses the tar file when reading
%%  - memory: Returns the tar contents as a list of tuples {Name, Bin}
%%  - keep_old_files: Extracted files will not overwrite the destination
%%  - {files, ListOfFilesToExtract}: Only extract ListOfFilesToExtract
%%  - verbose: Prints verbose information about the extraction,
%%  - {cwd, AbsoluteDir}: Sets the current working directory for the extraction
-spec extract(open_handle(), [extract_opt()]) ->
                     ok
                         | {ok, [{string(), binary()}]}
                         | {error, term()}.
extract({binary, Bin}, Opts) when is_list(Opts) ->
    do_extract({binary, Bin}, Opts);
extract({file, Fd}, Opts) when is_list(Opts) ->
    do_extract({file, Fd}, Opts);
extract(#reader{}=Reader, Opts) when is_list(Opts) ->
    do_extract(Reader, Opts);
extract(Name, Opts) when is_list(Name); is_binary(Name), is_list(Opts) ->
    do_extract(Name, Opts).

do_extract(Handle, Opts) when is_list(Opts) ->
    Opts2 = extract_opts(Opts),
    Acc = if Opts2#read_opts.output =:= memory -> []; true -> ok end,
    foldl_read(Handle, fun extract1/4, Acc, Opts2).

extract1(eof, Reader, _, Acc) when is_list(Acc) ->
    {ok, {ok, lists:reverse(Acc)}, Reader};
extract1(eof, Reader, _, Acc) ->
    {ok, Acc, Reader};
extract1(#tar_header{name=Name,size=Size}=Header, Reader, Opts, Acc) ->
    case check_extract(Name, Opts) of
        true ->
            case do_read(Reader, Size) of
                {ok, Bin, Reader2} ->
                    case write_extracted_element(Header, Bin, Opts) of
                        ok ->
                            {ok, Acc, Reader2};
                        {ok, NameBin} when is_list(Acc) ->
                            {ok, [NameBin | Acc], Reader2};
                        {error, _} = Err ->
                            throw(Err)
                    end;
                {error, _} = Err ->
                    throw(Err)
            end;
        false ->
            {ok, Acc, skip_file(Reader)}
    end.

%% Checks if the file Name should be extracted.
check_extract(_, #read_opts{files=all}) ->
    true;
check_extract(Name, #read_opts{files=Files}) ->
    ordsets:is_element(Name, Files).

%%%================================================================
%% The following table functions produce a list of information about
%% the files contained in the archive.
-type filename() :: string().
-type typeflag() :: regular | link | symlink |
                    char | block | directory |
                    fifo | reserved | unknown.
-type mode() :: non_neg_integer().
-type uid() :: non_neg_integer().
-type gid() :: non_neg_integer().

-type tar_entry() :: {filename(),
                      typeflag(),
                      non_neg_integer(),
                      calendar:datetime(),
                      mode(),
                      uid(),
                      gid()}.

%% Returns a list of names of the files in the tar file Name.
-spec table(open_handle()) -> {ok, [string()]} | {error, term()}.
table(Name) ->
    table(Name, []).

%% Returns a list of names of the files in the tar file Name.
%% Options accepted: compressed, verbose, cooked.
-spec table(open_handle(), [compressed | verbose | cooked]) ->
                   {ok, [tar_entry()]} | {error, term()}.
table(Name, Opts) when is_list(Opts) ->
    foldl_read(Name, fun table1/4, [], table_opts(Opts)).

table1(eof, Reader, _, Result) ->
    {ok, {ok, lists:reverse(Result)}, Reader};
table1(#tar_header{}=Header, Reader, #read_opts{verbose=Verbose}, Result) ->
    Attrs = table1_attrs(Header, Verbose),
    Reader2 = skip_file(Reader),
    {ok, [Attrs|Result], Reader2}.

%% Extracts attributes relevant to table1's output
table1_attrs(#tar_header{typeflag=Typeflag,mode=Mode}=Header, true) ->
    Type = typeflag(Typeflag),
    Name = Header#tar_header.name,
    Mtime = Header#tar_header.mtime,
    Uid = Header#tar_header.uid,
    Gid = Header#tar_header.gid,
    Size = Header#tar_header.size,
    {Name, Type, Size, Mtime, Mode, Uid, Gid};
table1_attrs(#tar_header{name=Name}, _Verbose) ->
    Name.

typeflag(?TYPE_REGULAR) -> regular;
typeflag(?TYPE_REGULAR_A) -> regular;
typeflag(?TYPE_GNU_SPARSE) -> regular;
typeflag(?TYPE_CONT) -> regular;
typeflag(?TYPE_LINK) -> link;
typeflag(?TYPE_SYMLINK) -> symlink;
typeflag(?TYPE_CHAR) -> char;
typeflag(?TYPE_BLOCK) -> block;
typeflag(?TYPE_DIR) -> directory;
typeflag(?TYPE_FIFO) -> fifo;
typeflag(_) -> unknown.

%%%================================================================
%% Comments for printing the contents of a tape archive,
%% meant to be invoked from the shell.

%% Prints each filename in the archive
-spec t(file:filename()) -> ok | {error, term()}.
t(Name) when is_list(Name); is_binary(Name) ->
    case table(Name) of
        {ok, List} ->
            lists:foreach(fun(N) -> ok = io:format("~ts\n", [N]) end, List);
        Error ->
            Error
    end.

%% Prints verbose information about each file in the archive
-spec tt(open_handle()) -> ok | {error, term()}.
tt(Name) ->
    case table(Name, [verbose]) of
        {ok, List} ->
            lists:foreach(fun print_header/1, List);
        Error ->
            Error
    end.

%% Used by tt/1 to print a tar_entry tuple
-spec print_header(tar_entry()) -> ok.
print_header({Name, Type, Size, Mtime, Mode, Uid, Gid}) ->
    io:format("~s~s ~4w/~-4w ~7w ~s ~s\n",
              [type_to_string(Type), mode_to_string(Mode),
               Uid, Gid, Size, time_to_string(Mtime), Name]).

type_to_string(regular)   -> "-";
type_to_string(directory) -> "d";
type_to_string(link)      -> "l";
type_to_string(symlink)   -> "s";
type_to_string(char)      -> "c";
type_to_string(block)     -> "b";
type_to_string(fifo)      -> "f";
type_to_string(unknown)   -> "?".

%% Converts a numeric mode to its human-readable representation
mode_to_string(Mode) ->
    mode_to_string(Mode, "xwrxwrxwr", []).
mode_to_string(Mode, [C|T], Acc) when Mode band 1 =:= 1 ->
    mode_to_string(Mode bsr 1, T, [C|Acc]);
mode_to_string(Mode, [_|T], Acc) ->
    mode_to_string(Mode bsr 1, T, [$-|Acc]);
mode_to_string(_, [], Acc) ->
    Acc.

%% Converts a datetime tuple to a readable string
time_to_string({{Y, Mon, Day}, {H, Min, _}}) ->
    io_lib:format("~s ~2w ~s:~s ~w", [month(Mon), Day, two_d(H), two_d(Min), Y]).

two_d(N) ->
    tl(integer_to_list(N + 100)).

month(1) -> "Jan";
month(2) -> "Feb";
month(3) -> "Mar";
month(4) -> "Apr";
month(5) -> "May";
month(6) -> "Jun";
month(7) -> "Jul";
month(8) -> "Aug";
month(9) -> "Sep";
month(10) -> "Oct";
month(11) -> "Nov";
month(12) -> "Dec".

%%%================================================================
%% The open function with friends is to keep the file and binary api of this module
-type open_handle() :: file:filename()
                     | {binary, binary()}
                     | {file, term()}.
-spec open(open_handle(), [write | compressed | cooked]) ->
                  {ok, reader()} | {error, term()}.
open({binary, Bin}, Mode) when is_binary(Bin) ->
    do_open({binary, Bin}, Mode);
open({file, Fd}, Mode) ->
    do_open({file, Fd}, Mode);
open(Name, Mode) when is_list(Name); is_binary(Name) ->
    do_open(Name, Mode).

do_open(Name, Mode) when is_list(Mode) ->
    case open_mode(Mode) of
        {ok, Access, Raw, Opts} ->
            open1(Name, Access, Raw, Opts);
        {error, Reason} ->
            {error, {Name, Reason}}
    end.

open1({binary,Bin}, read, _Raw, Opts) when is_binary(Bin) ->
    case file:open(Bin, [ram,binary,read]) of
        {ok,File} ->
            _ = [ram_file:uncompress(File) || Opts =:= [compressed]],
            {ok, #reader{handle=File,access=read,func=fun file_op/2}};
        Error ->
            Error
    end;
open1({file, Fd}, read, _Raw, _Opts) ->
    Reader = #reader{handle=Fd,access=read,func=fun file_op/2},
    case do_position(Reader, {cur, 0}) of
        {ok, Pos, Reader2} ->
            {ok, Reader2#reader{pos=Pos}};
        {error, _} = Err ->
            Err
    end;
open1(Name, Access, Raw, Opts) when is_list(Name) or is_binary(Name) ->
    case file:open(Name, Raw ++ [binary, Access|Opts]) of
        {ok, File} ->
            {ok, #reader{handle=File,access=Access,func=fun file_op/2}};
        {error, Reason} ->
            {error, {Name, Reason}}
    end.

open_mode(Mode) ->
    open_mode(Mode, false, [raw], []).

open_mode(read, _, Raw, _) ->
    {ok, read, Raw, []};
open_mode(write, _, Raw, _) ->
    {ok, write, Raw, []};
open_mode([read|Rest], false, Raw, Opts) ->
    open_mode(Rest, read, Raw, Opts);
open_mode([write|Rest], false, Raw, Opts) ->
    open_mode(Rest, write, Raw, Opts);
open_mode([compressed|Rest], Access, Raw, Opts) ->
    open_mode(Rest, Access, Raw, [compressed|Opts]);
open_mode([cooked|Rest], Access, _Raw, Opts) ->
    open_mode(Rest, Access, [], Opts);
open_mode([], Access, Raw, Opts) ->
    {ok, Access, Raw, Opts};
open_mode(_, _, _, _) ->
    {error, einval}.

file_op(write, {Fd, Data}) ->
    file:write(Fd, Data);
file_op(position, {Fd, Pos}) ->
    file:position(Fd, Pos);
file_op(read2, {Fd, Size}) ->
    file:read(Fd, Size);
file_op(close, Fd) ->
    file:close(Fd).

%% Closes a tar archive.
-spec close(reader()) -> ok | {error, term()}.
close(#reader{access=read}=Reader) ->
    ok = do_close(Reader);
close(#reader{access=write}=Reader) ->
    {ok, Reader2} = pad_file(Reader),
    ok = do_close(Reader2),
    ok;
close(_) ->
    {error, einval}.

pad_file(#reader{pos=Pos}=Reader) ->
    %% There must be at least two zero blocks at the end.
    PadCurrent = skip_padding(Pos+?BLOCK_SIZE),
    Padding = <<0:PadCurrent/unit:8>>,
    do_write(Reader, [Padding, ?ZERO_BLOCK, ?ZERO_BLOCK]).


%%%================================================================
%% Creation/modification of tar archives

%% Creates a tar file Name containing the given files.
-spec create(file:filename(), filelist()) -> ok | {error, {string(), term()}}.
create(Name, FileList) when is_list(Name); is_binary(Name) ->
    create(Name, FileList, []).

%% Creates a tar archive Name containing the given files.
%% Accepted options: verbose, compressed, cooked
-spec create(file:filename(), filelist(), [create_opt()]) ->
                    ok | {error, term()} | {error, {string(), term()}}.
create(Name, FileList, Options) when is_list(Name); is_binary(Name) ->
    Mode = lists:filter(fun(X) -> (X=:=compressed) or (X=:=cooked)
                        end, Options),
    case open(Name, [write|Mode]) of
        {ok, TarFile} ->
            do_create(TarFile, FileList, Options);
        {error, _} = Err ->
            Err
    end.

do_create(TarFile, [], _Opts) ->
    close(TarFile);
do_create(TarFile, [{NameInArchive, NameOrBin}|Rest], Opts) ->
    case add(TarFile, NameOrBin, NameInArchive, Opts) of
        ok ->
            do_create(TarFile, Rest, Opts);
        {error, _} = Err ->
            _ = close(TarFile),
            Err
    end;
do_create(TarFile, [Name|Rest], Opts) ->
    case add(TarFile, Name, Name, Opts) of
        ok ->
            do_create(TarFile, Rest, Opts);
        {error, _} = Err ->
            _ = close(TarFile),
            Err
    end.

%% Adds a file to a tape archive.
-type add_type() :: string()
                  | {string(), string()}
                  | {string(), binary()}.
-spec add(reader(), add_type(), [add_opt()]) -> ok | {error, term()}.
add(Reader, {NameInArchive, Name}, Opts)
  when is_list(NameInArchive), is_list(Name) ->
    do_add(Reader, Name, NameInArchive, Opts);
add(Reader, {NameInArchive, Bin}, Opts)
  when is_list(NameInArchive), is_binary(Bin) ->
    do_add(Reader, Bin, NameInArchive, Opts);
add(Reader, Name, Opts) when is_list(Name) ->
    do_add(Reader, Name, Name, Opts).


-spec add(reader(), string() | binary(), string(), [add_opt()]) ->
                 ok | {error, term()}.
add(Reader, NameOrBin, NameInArchive, Options)
  when is_list(NameOrBin); is_binary(NameOrBin),
       is_list(NameInArchive), is_list(Options) ->
    do_add(Reader, NameOrBin, NameInArchive, Options).

do_add(#reader{access=write}=Reader, Name, NameInArchive, Options)
  when is_list(NameInArchive), is_list(Options) ->
    Opts = #add_opts{read_info=fun(F) -> file:read_link_info(F) end},
    add1(Reader, Name, NameInArchive, add_opts(Options, Opts));
do_add(#reader{access=read},_,_,_) ->
    {error, eacces};
do_add(Reader,_,_,_) ->
    {error, {badarg, Reader}}.

add_opts([dereference|T], Opts) ->
    add_opts(T, Opts#add_opts{read_info=fun(F) -> file:read_file_info(F) end});
add_opts([verbose|T], Opts) ->
    add_opts(T, Opts#add_opts{verbose=true});
add_opts([{chunks,N}|T], Opts) ->
    add_opts(T, Opts#add_opts{chunk_size=N});
add_opts([_|T], Opts) ->
    add_opts(T, Opts);
add_opts([], Opts) ->
    Opts.

add1(#reader{}=Reader, Name, NameInArchive, #add_opts{read_info=ReadInfo}=Opts)
  when is_list(Name) ->
    Res = case ReadInfo(Name) of
              {error, Reason0} ->
                  {error, {Name, Reason0}};
              {ok, #file_info{type=symlink}=Fi} ->
                  add_verbose(Opts, "a ~ts~n", [NameInArchive]),
                  {ok, Linkname} = file:read_link(Name),
                  Header = fileinfo_to_header(NameInArchive, Fi, Linkname),
                  add_header(Reader, Header, Opts);
              {ok, #file_info{type=regular}=Fi} ->
                  add_verbose(Opts, "a ~ts~n", [NameInArchive]),
                  Header = fileinfo_to_header(NameInArchive, Fi, false),
                  {ok, Reader2} = add_header(Reader, Header, Opts),
                  FileSize = Header#tar_header.size,
                  {ok, FileSize, Reader3} = do_copy(Reader2, Name, Opts),
                  Padding = skip_padding(FileSize),
                  Pad = <<0:Padding/unit:8>>,
                  do_write(Reader3, Pad);
              {ok, #file_info{type=directory}=Fi} ->
                  add_directory(Reader, Name, NameInArchive, Fi, Opts);
              {ok, #file_info{}=Fi} ->
                  add_verbose(Opts, "a ~ts~n", [NameInArchive]),
                  Header = fileinfo_to_header(NameInArchive, Fi, false),
                  add_header(Reader, Header, Opts)
          end,
    case Res of
        ok -> ok;
        {ok, _Reader} -> ok;
        {error, _Reason} = Err -> Err
    end;
add1(Reader, Bin, NameInArchive, Opts) when is_binary(Bin) ->
    add_verbose(Opts, "a ~ts~n", [NameInArchive]),
    Now = calendar:now_to_local_time(erlang:timestamp()),
    Header = #tar_header{
                name = NameInArchive,
                size = byte_size(Bin),
                typeflag = ?TYPE_REGULAR,
                atime = Now,
                mtime = Now,
                ctime = Now,
                mode = 8#100644},
    {ok, Reader2} = add_header(Reader, Header, Opts),
    Padding = skip_padding(byte_size(Bin)),
    Data = [Bin, <<0:Padding/unit:8>>],
    case do_write(Reader2, Data) of
        {ok, _Reader3} -> ok;
        {error, Reason} -> {error, {NameInArchive, Reason}}
    end.

add_directory(Reader, DirName, NameInArchive, Info, Opts) ->
    case file:list_dir(DirName) of
        {ok, []} ->
            add_verbose(Opts, "a ~ts~n", [NameInArchive]),
            Header = fileinfo_to_header(NameInArchive, Info, false),
            add_header(Reader, Header, Opts);
        {ok, Files} ->
            add_verbose(Opts, "a ~ts~n", [NameInArchive]),
            try add_files(Reader, Files, DirName, NameInArchive, Opts) of
                ok -> ok;
                {error, _} = Err -> Err
            catch
                throw:{error, {_Name, _Reason}} = Err -> Err;
                throw:{error, Reason} -> {error, {DirName, Reason}}
            end;
        {error, Reason} ->
            {error, {DirName, Reason}}
    end.

add_files(_Reader, [], _Dir, _DirInArchive, _Opts) ->
    ok;
add_files(Reader, [Name|Rest], Dir, DirInArchive, #add_opts{read_info=Info}=Opts) ->
    FullName = filename:join(Dir, Name),
    NameInArchive = filename:join(DirInArchive, Name),
    Res = case Info(FullName) of
              {error, Reason} ->
                  {error, {FullName, Reason}};
              {ok, #file_info{type=directory}=Fi} ->
                  add_directory(Reader, FullName, NameInArchive, Fi, Opts);
              {ok, #file_info{type=symlink}=Fi} ->
                  add_verbose(Opts, "a ~ts~n", [NameInArchive]),
                  {ok, Linkname} = file:read_link(FullName),
                  Header = fileinfo_to_header(NameInArchive, Fi, Linkname),
                  add_header(Reader, Header, Opts);
              {ok, #file_info{type=regular}=Fi} ->
                  add_verbose(Opts, "a ~ts~n", [NameInArchive]),
                  Header = fileinfo_to_header(NameInArchive, Fi, false),
                  {ok, Reader2} = add_header(Reader, Header, Opts),
                  FileSize = Header#tar_header.size,
                  {ok, FileSize, Reader3} = do_copy(Reader2, FullName, Opts),
                  Padding = skip_padding(FileSize),
                  Pad = <<0:Padding/unit:8>>,
                  do_write(Reader3, Pad);
              {ok, #file_info{}=Fi} ->
                  add_verbose(Opts, "a ~ts~n", [NameInArchive]),
                  Header = fileinfo_to_header(NameInArchive, Fi, false),
                  add_header(Reader, Header, Opts)
          end,
    case Res of
        ok -> add_files(Reader, Rest, Dir, DirInArchive, Opts);
        {ok, ReaderNext} -> add_files(ReaderNext, Rest, Dir, DirInArchive, Opts);
        {error, _} = Err -> Err
    end.

format_string(String, Size) when length(String) > Size ->
    throw({error, {write_string, field_too_long}});
format_string(String, Size) ->
    Ascii = to_ascii(String),
    if byte_size(Ascii) < Size ->
            [Ascii, 0];
       true ->
            Ascii
    end.

format_octal(Octal) ->
    iolist_to_binary(io_lib:fwrite("~.8B", [Octal])).

add_header(#reader{}=Reader, #tar_header{}=Header, Opts) ->
    {ok, Iodata} = build_header(Header, Opts),
    do_write(Reader, Iodata).

write_to_block(Block, IoData, Start) when is_list(IoData) ->
    write_to_block(Block, iolist_to_binary(IoData), Start);
write_to_block(Block, Bin, Start) when is_binary(Bin) ->
    Size = byte_size(Bin),
    <<Head:Start/unit:8, _:Size/unit:8, Rest/binary>> = Block,
    <<Head:Start/unit:8, Bin/binary, Rest/binary>>.

build_header(#tar_header{}=Header, Opts) ->
    #tar_header{
       name=Name,
       mode=Mode,
       uid=Uid,
       gid=Gid,
       size=Size,
       typeflag=Type,
       linkname=Linkname,
       uname=Uname,
       gname=Gname,
       devmajor=Devmaj,
       devminor=Devmin
      } = Header,
    Mtime = datetime_to_posix(Header#tar_header.mtime),

    Block0 = ?ZERO_BLOCK,
    {Block1, Pax0} = write_string(Block0, ?V7_NAME, ?V7_NAME_LEN, Name, ?PAX_PATH, #{}),
    Block2 = write_octal(Block1, ?V7_MODE, ?V7_MODE_LEN, Mode),
    {Block3, Pax1} = write_numeric(Block2, ?V7_UID, ?V7_UID_LEN, Uid, ?PAX_UID, Pax0),
    {Block4, Pax2} = write_numeric(Block3, ?V7_GID, ?V7_GID_LEN, Gid, ?PAX_GID, Pax1),
    {Block5, Pax3} = write_numeric(Block4, ?V7_SIZE, ?V7_SIZE_LEN, Size, ?PAX_SIZE, Pax2),
    {Block6, Pax4} = write_numeric(Block5, ?V7_MTIME, ?V7_MTIME_LEN, Mtime, ?PAX_NONE, Pax3),
    {Block7, Pax5} = write_string(Block6, ?V7_TYPE, ?V7_TYPE_LEN, <<Type>>, ?PAX_NONE, Pax4),
    {Block8, Pax6} = write_string(Block7, ?V7_LINKNAME, ?V7_LINKNAME_LEN,
                                  Linkname, ?PAX_LINKPATH, Pax5),
    {Block9, Pax7} = write_string(Block8, ?USTAR_UNAME, ?USTAR_UNAME_LEN,
                                  Uname, ?PAX_UNAME, Pax6),
    {Block10, Pax8} = write_string(Block9, ?USTAR_GNAME, ?USTAR_GNAME_LEN,
                                   Gname, ?PAX_GNAME, Pax7),
    {Block11, Pax9} = write_numeric(Block10, ?USTAR_DEVMAJ, ?USTAR_DEVMAJ_LEN,
                                    Devmaj, ?PAX_NONE, Pax8),
    {Block12, Pax10} = write_numeric(Block11, ?USTAR_DEVMIN, ?USTAR_DEVMIN_LEN,
                                     Devmin, ?PAX_NONE, Pax9),
    {Block13, Pax11} = set_path(Block12, Pax10),
    PaxEntry = case maps:size(Pax11) of
                   0 -> [];
                   _ -> build_pax_entry(Header, Pax11, Opts)
               end,
    Block14 = set_format(Block13, ?FORMAT_USTAR),
    Block15 = set_checksum(Block14),
    {ok, [PaxEntry, Block15]}.

set_path(Block0, Pax) ->
     %% only use ustar header when name is too long
    case maps:get(?PAX_PATH, Pax, nil) of
        nil ->
            {Block0, Pax};
        PaxPath ->
            case split_ustar_path(PaxPath) of
                {ok, UstarName, UstarPrefix} ->
                    {Block1, _} = write_string(Block0, ?V7_NAME, ?V7_NAME_LEN,
                                               UstarName, ?PAX_NONE, #{}),
                    {Block2, _} = write_string(Block1, ?USTAR_PREFIX, ?USTAR_PREFIX_LEN,
                                               UstarPrefix, ?PAX_NONE, #{}),
                    {Block2, maps:remove(?PAX_PATH, Pax)};
                false ->
                    {Block0, Pax}
            end
    end.

set_format(Block0, Format)
  when Format =:= ?FORMAT_USTAR; Format =:= ?FORMAT_PAX ->
    Block1 = write_to_block(Block0, ?MAGIC_USTAR, ?USTAR_MAGIC),
    write_to_block(Block1, ?VERSION_USTAR, ?USTAR_VERSION);
set_format(_Block, Format) ->
    throw({error, {invalid_format, Format}}).

set_checksum(Block) ->
    Checksum = compute_checksum(Block),
    write_octal(Block, ?V7_CHKSUM, ?V7_CHKSUM_LEN, Checksum).

build_pax_entry(Header, PaxAttrs, Opts) ->
    Path = Header#tar_header.name,
    Filename = filename:basename(Path),
    Dir = filename:dirname(Path),
    Path2 = filename:join([Dir, "PaxHeaders.0", Filename]),
    AsciiPath = to_ascii(Path2),
    Path3 = if byte_size(AsciiPath) > ?V7_NAME_LEN ->
                    binary_part(AsciiPath, 0, ?V7_NAME_LEN - 1);
               true ->
                    AsciiPath
            end,
    Keys = maps:keys(PaxAttrs),
    SortedKeys = lists:sort(Keys),
    PaxFile = build_pax_file(SortedKeys, PaxAttrs),
    Size = byte_size(PaxFile),
    Padding = (?BLOCK_SIZE -
                   (byte_size(PaxFile) rem ?BLOCK_SIZE)) rem ?BLOCK_SIZE,
    Pad = <<0:Padding/unit:8>>,
    PaxHeader = #tar_header{
                   name=unicode:characters_to_list(Path3),
                   size=Size,
                   mtime=Header#tar_header.mtime,
                   atime=Header#tar_header.atime,
                   ctime=Header#tar_header.ctime,
                   typeflag=?TYPE_X_HEADER
                  },
    {ok, PaxHeaderData} = build_header(PaxHeader, Opts),
    [PaxHeaderData, PaxFile, Pad].

build_pax_file(Keys, PaxAttrs) ->
    build_pax_file(Keys, PaxAttrs, []).
build_pax_file([], _, Acc) ->
    unicode:characters_to_binary(Acc);
build_pax_file([K|Rest], Attrs, Acc) ->
    V = maps:get(K, Attrs),
    Size = sizeof(K) + sizeof(V) + 3,
    Size2 = sizeof(Size) + Size,
    Key = to_string(K),
    Value = to_string(V),
    Record = unicode:characters_to_binary(io_lib:format("~B ~ts=~ts\n", [Size2, Key, Value])),
    if byte_size(Record) =/= Size2 ->
            Size3 = byte_size(Record),
            Record2 = io_lib:format("~B ~ts=~ts\n", [Size3, Key, Value]),
            build_pax_file(Rest, Attrs, [Acc, Record2]);
       true ->
            build_pax_file(Rest, Attrs, [Acc, Record])
    end.

sizeof(Bin) when is_binary(Bin) ->
    byte_size(Bin);
sizeof(List) when is_list(List) ->
    length(List);
sizeof(N) when is_integer(N) ->
    byte_size(integer_to_binary(N));
sizeof(N) when is_float(N) ->
    byte_size(float_to_binary(N)).

to_string(Bin) when is_binary(Bin) ->
    unicode:characters_to_list(Bin);
to_string(List) when is_list(List) ->
    List;
to_string(N) when is_integer(N) ->
    integer_to_list(N);
to_string(N) when is_float(N) ->
    float_to_list(N).

split_ustar_path(Path) ->
    Len = length(Path),
    NotAscii = not is_ascii(Path),
    if Len =< ?V7_NAME_LEN; NotAscii ->
            false;
       true ->
            PathBin = binary:list_to_bin(Path),
            case binary:split(PathBin, [<<$/>>], [global, trim_all]) of
                [Part] when byte_size(Part) >= ?V7_NAME_LEN ->
                    false;
                Parts ->
                    case lists:last(Parts) of
                        Name when byte_size(Name) >= ?V7_NAME_LEN ->
                            false;
                        Name ->
                            Parts2 = lists:sublist(Parts, length(Parts) - 1),
                            join_split_ustar_path(Parts2, {ok, Name, nil})
                    end
            end
    end.

join_split_ustar_path([], Acc) ->
    Acc;
join_split_ustar_path([Part|_], {ok, _, nil})
  when byte_size(Part) > ?USTAR_PREFIX_LEN ->
    false;
join_split_ustar_path([Part|_], {ok, _Name, Acc})
  when (byte_size(Part)+byte_size(Acc)) > ?USTAR_PREFIX_LEN ->
    false;
join_split_ustar_path([Part|Rest], {ok, Name, nil}) ->
    join_split_ustar_path(Rest, {ok, Name, Part});
join_split_ustar_path([Part|Rest], {ok, Name, Acc}) ->
    join_split_ustar_path(Rest, {ok, Name, <<Acc/binary,$/,Part/binary>>}).

datetime_to_posix(DateTime) ->
    Epoch = calendar:datetime_to_gregorian_seconds(?EPOCH),
    Secs = calendar:datetime_to_gregorian_seconds(DateTime),
    case Secs - Epoch of
        N when N < 0 -> 0;
        N -> N
    end.

write_octal(Block, Pos, Size, X) ->
    Octal = zero_pad(format_octal(X), Size-1),
    if byte_size(Octal) < Size ->
            write_to_block(Block, Octal, Pos);
       true ->
            throw({error, {write_failed, octal_field_too_long}})
    end.

write_string(Block, Pos, Size, Str, PaxAttr, Pax0) ->
    NotAscii = not is_ascii(Str),
    if PaxAttr =/= ?PAX_NONE andalso (length(Str) > Size orelse NotAscii) ->
            Pax1 = maps:put(PaxAttr, Str, Pax0),
            {Block, Pax1};
       true ->
            Formatted = format_string(Str, Size),
            {write_to_block(Block, Formatted, Pos), Pax0}
    end.
write_numeric(Block, Pos, Size, X, PaxAttr, Pax0) ->
    %% attempt octal
    Octal = zero_pad(format_octal(X), Size-1),
    if byte_size(Octal) < Size ->
            {write_to_block(Block, [Octal, 0], Pos), Pax0};
       PaxAttr =/= ?PAX_NONE ->
            Pax1 = maps:put(PaxAttr, X, Pax0),
            {Block, Pax1};
       true ->
            throw({error, {write_failed, numeric_field_too_long}})
    end.

zero_pad(Str, Size) when byte_size(Str) >= Size ->
    Str;
zero_pad(Str, Size) ->
    Padding = Size - byte_size(Str),
    Pad = binary:copy(<<$0>>, Padding),
    <<Pad/binary, Str/binary>>.


%%%================================================================
%% Functions for creating or modifying tar archives

read_block(Reader) ->
    case do_read(Reader, ?BLOCK_SIZE) of
        eof ->
            throw({error, eof});
        %% Two zero blocks mark the end of the archive
        {ok, ?ZERO_BLOCK, Reader1} ->
            case do_read(Reader1, ?BLOCK_SIZE) of
                eof ->
                    % This is technically a malformed end-of-archive marker,
                    % as two ZERO_BLOCKs are expected as the marker,
                    % but if we've already made it this far, we should just ignore it
                    eof;
                {ok, ?ZERO_BLOCK, _Reader2} ->
                    eof;
                {ok, _Block, _Reader2} ->
                    throw({error, invalid_end_of_archive});
                {error,_} = Err ->
                    throw(Err)
            end;
        {ok, Block, Reader1} when is_binary(Block) ->
            {ok, Block, Reader1};
        {error, _} = Err ->
            throw(Err)
    end.

get_header(#reader{}=Reader) ->
    case read_block(Reader) of
        eof ->
            eof;
        {ok, Block, Reader1} ->
            convert_header(Block, Reader1)
    end.

%% Converts the tar header to a record.
to_v7(Bin) when is_binary(Bin), byte_size(Bin) =:= ?BLOCK_SIZE ->
    #header_v7{
       name=binary_part(Bin, ?V7_NAME, ?V7_NAME_LEN),
       mode=binary_part(Bin, ?V7_MODE, ?V7_MODE_LEN),
       uid=binary_part(Bin, ?V7_UID, ?V7_UID_LEN),
       gid=binary_part(Bin, ?V7_GID, ?V7_GID_LEN),
       size=binary_part(Bin, ?V7_SIZE, ?V7_SIZE_LEN),
       mtime=binary_part(Bin, ?V7_MTIME, ?V7_MTIME_LEN),
       checksum=binary_part(Bin, ?V7_CHKSUM, ?V7_CHKSUM_LEN),
       typeflag=binary:at(Bin, ?V7_TYPE),
       linkname=binary_part(Bin, ?V7_LINKNAME, ?V7_LINKNAME_LEN)
      };
to_v7(_) ->
    {error, header_block_too_small}.

to_gnu(#header_v7{}=V7, Bin)
  when is_binary(Bin), byte_size(Bin) =:= ?BLOCK_SIZE ->
    #header_gnu{
       header_v7=V7,
       magic=binary_part(Bin, ?GNU_MAGIC, ?GNU_MAGIC_LEN),
       version=binary_part(Bin, ?GNU_VERSION, ?GNU_VERSION_LEN),
       uname=binary_part(Bin, 265, 32),
       gname=binary_part(Bin, 297, 32),
       devmajor=binary_part(Bin, 329, 8),
       devminor=binary_part(Bin, 337, 8),
       atime=binary_part(Bin, 345, 12),
       ctime=binary_part(Bin, 357, 12),
       sparse=to_sparse_array(binary_part(Bin, 386, 24*4+1)),
       real_size=binary_part(Bin, 483, 12)
      }.

to_star(#header_v7{}=V7, Bin)
  when is_binary(Bin), byte_size(Bin) =:= ?BLOCK_SIZE ->
    #header_star{
       header_v7=V7,
       magic=binary_part(Bin, ?USTAR_MAGIC, ?USTAR_MAGIC_LEN),
       version=binary_part(Bin, ?USTAR_VERSION, ?USTAR_VERSION_LEN),
       uname=binary_part(Bin, ?USTAR_UNAME, ?USTAR_UNAME_LEN),
       gname=binary_part(Bin, ?USTAR_GNAME, ?USTAR_GNAME_LEN),
       devmajor=binary_part(Bin, ?USTAR_DEVMAJ, ?USTAR_DEVMAJ_LEN),
       devminor=binary_part(Bin, ?USTAR_DEVMIN, ?USTAR_DEVMIN_LEN),
       prefix=binary_part(Bin, 345, 131),
       atime=binary_part(Bin, 476, 12),
       ctime=binary_part(Bin, 488, 12),
       trailer=binary_part(Bin, ?STAR_TRAILER, ?STAR_TRAILER_LEN)
      }.

to_ustar(#header_v7{}=V7, Bin)
  when is_binary(Bin), byte_size(Bin) =:= ?BLOCK_SIZE ->
    #header_ustar{
       header_v7=V7,
       magic=binary_part(Bin, ?USTAR_MAGIC, ?USTAR_MAGIC_LEN),
       version=binary_part(Bin, ?USTAR_VERSION, ?USTAR_VERSION_LEN),
       uname=binary_part(Bin, ?USTAR_UNAME, ?USTAR_UNAME_LEN),
       gname=binary_part(Bin, ?USTAR_GNAME, ?USTAR_GNAME_LEN),
       devmajor=binary_part(Bin, ?USTAR_DEVMAJ, ?USTAR_DEVMAJ_LEN),
       devminor=binary_part(Bin, ?USTAR_DEVMIN, ?USTAR_DEVMIN_LEN),
       prefix=binary_part(Bin, 345, 155)
      }.

to_sparse_array(Bin) when is_binary(Bin) ->
    MaxEntries = byte_size(Bin) div 24,
    IsExtended = 1 =:= binary:at(Bin, 24*MaxEntries),
    Entries = parse_sparse_entries(Bin, MaxEntries-1, []),
    #sparse_array{
       entries=Entries,
       max_entries=MaxEntries,
       is_extended=IsExtended
      }.

parse_sparse_entries(<<>>, _, Acc) ->
    Acc;
parse_sparse_entries(_, -1, Acc) ->
    Acc;
parse_sparse_entries(Bin, N, Acc) ->
    case to_sparse_entry(binary_part(Bin, N*24, 24)) of
        nil ->
            parse_sparse_entries(Bin, N-1, Acc);
        Entry = #sparse_entry{} ->
            parse_sparse_entries(Bin, N-1, [Entry|Acc])
    end.

-define(EMPTY_ENTRY, <<0,0,0,0,0,0,0,0,0,0,0,0>>).
to_sparse_entry(Bin) when is_binary(Bin), byte_size(Bin) =:= 24 ->
    OffsetBin = binary_part(Bin, 0, 12),
    NumBytesBin = binary_part(Bin, 12, 12),
    case {OffsetBin, NumBytesBin} of
        {?EMPTY_ENTRY, ?EMPTY_ENTRY} ->
            nil;
        _ ->
            #sparse_entry{
               offset=parse_numeric(OffsetBin),
               num_bytes=parse_numeric(NumBytesBin)}
    end.

-spec get_format(binary()) -> {ok, pos_integer(), header_v7()}
                                  | ?FORMAT_UNKNOWN
                                  | {error, term()}.
get_format(Bin) when is_binary(Bin), byte_size(Bin) =:= ?BLOCK_SIZE ->
    do_get_format(to_v7(Bin), Bin).

do_get_format({error, _} = Err, _Bin) ->
    Err;
do_get_format(#header_v7{}=V7, Bin)
  when is_binary(Bin), byte_size(Bin) =:= ?BLOCK_SIZE ->
    Checksum = parse_octal(V7#header_v7.checksum),
    Chk1 = compute_checksum(Bin),
    Chk2 = compute_signed_checksum(Bin),
    if Checksum =/= Chk1 andalso Checksum =/= Chk2 ->
            ?FORMAT_UNKNOWN;
       true ->
            %% guess magic
            Ustar = to_ustar(V7, Bin),
            Star = to_star(V7, Bin),
            Magic = Ustar#header_ustar.magic,
            Version = Ustar#header_ustar.version,
            Trailer = Star#header_star.trailer,
            Format = if
                         Magic =:= ?MAGIC_USTAR, Trailer =:= ?TRAILER_STAR ->
                             ?FORMAT_STAR;
                         Magic =:= ?MAGIC_USTAR ->
                             ?FORMAT_USTAR;
                         Magic =:= ?MAGIC_GNU, Version =:= ?VERSION_GNU ->
                             ?FORMAT_GNU;
                         true ->
                             ?FORMAT_V7
                     end,
            {ok, Format, V7}
    end.

unpack_format(Format, #header_v7{}=V7, Bin, Reader)
  when is_binary(Bin), byte_size(Bin) =:= ?BLOCK_SIZE ->
    Mtime = posix_to_erlang_time(parse_numeric(V7#header_v7.mtime)),
    Header0 = #tar_header{
                 name=parse_string(V7#header_v7.name),
                 mode=parse_numeric(V7#header_v7.mode),
                 uid=parse_numeric(V7#header_v7.uid),
                 gid=parse_numeric(V7#header_v7.gid),
                 size=parse_numeric(V7#header_v7.size),
                 mtime=Mtime,
                 atime=Mtime,
                 ctime=Mtime,
                 typeflag=V7#header_v7.typeflag,
                 linkname=parse_string(V7#header_v7.linkname)
                },
    Typeflag = Header0#tar_header.typeflag,
    Header1 = if Format > ?FORMAT_V7 ->
                      unpack_modern(Format, V7, Bin, Header0);
                 true ->
                      Name = Header0#tar_header.name,
                      Header0#tar_header{name=safe_join_path("", Name)}
              end,
    HeaderOnly = is_header_only_type(Typeflag),
    Header2 = if HeaderOnly ->
                      Header1#tar_header{size=0};
                 true ->
                      Header1
              end,
    if Typeflag =:= ?TYPE_GNU_SPARSE ->
            Gnu = to_gnu(V7, Bin),
            RealSize = parse_numeric(Gnu#header_gnu.real_size),
            {Sparsemap, Reader2} = parse_sparse_map(Gnu, Reader),
            Header3 = Header2#tar_header{size=RealSize},
            {Header3, new_sparse_file_reader(Reader2, Sparsemap, RealSize)};
       true ->
            FileReader = #reg_file_reader{
                            handle=Reader,
                            num_bytes=Header2#tar_header.size,
                            size=Header2#tar_header.size,
                            pos = 0
                           },
            {Header2, FileReader}
    end.

unpack_modern(Format, #header_v7{}=V7, Bin, #tar_header{}=Header0)
  when is_binary(Bin) ->
    Typeflag = Header0#tar_header.typeflag,
    Ustar = to_ustar(V7, Bin),
    H0 = Header0#tar_header{
            uname=parse_string(Ustar#header_ustar.uname),
            gname=parse_string(Ustar#header_ustar.gname)},
    H1 = if Typeflag =:= ?TYPE_CHAR
            orelse Typeflag =:= ?TYPE_BLOCK ->
                Ma = parse_numeric(Ustar#header_ustar.devmajor),
                Mi = parse_numeric(Ustar#header_ustar.devminor),
                H0#tar_header{
                    devmajor=Ma,
                    devminor=Mi
                };
            true ->
                H0
        end,
    {Prefix, H2} = case Format of
                        ?FORMAT_USTAR ->
                            {parse_string(Ustar#header_ustar.prefix), H1};
                        ?FORMAT_STAR ->
                            Star = to_star(V7, Bin),
                            Prefix0 = parse_string(Star#header_star.prefix),
                            Atime0 = Star#header_star.atime,
                            Atime = posix_to_erlang_time(parse_numeric(Atime0)),
                            Ctime0 = Star#header_star.ctime,
                            Ctime = posix_to_erlang_time(parse_numeric(Ctime0)),
                            {Prefix0, H1#tar_header{
                                        atime=Atime,
                                        ctime=Ctime
                                    }};
                        _ ->
                            {"", H1}
                    end,
    Name = H2#tar_header.name,
    H2#tar_header{name=safe_join_path(Prefix, Name)}.


safe_join_path([], Name) ->
    strip_slashes(Name, both);
safe_join_path(Prefix, []) ->
    strip_slashes(Prefix, right);
safe_join_path(Prefix, Name) ->
    filename:join(strip_slashes(Prefix, right), strip_slashes(Name, both)).

strip_slashes(Str, Direction) ->
    string:strip(Str, Direction, $/).

new_sparse_file_reader(Reader, Sparsemap, RealSize) ->
    true = validate_sparse_entries(Sparsemap, RealSize),
    #sparse_file_reader{
       handle = Reader,
       num_bytes = RealSize,
       pos = 0,
       size = RealSize,
       sparse_map = Sparsemap}.

validate_sparse_entries(Entries, RealSize) ->
    validate_sparse_entries(Entries, RealSize, 0, 0).
validate_sparse_entries([], _RealSize, _I, _LastOffset) ->
    true;
validate_sparse_entries([#sparse_entry{}=Entry|Rest], RealSize, I, LastOffset) ->
    Offset = Entry#sparse_entry.offset,
    NumBytes = Entry#sparse_entry.num_bytes,
    if
        Offset > ?MAX_INT64-NumBytes ->
            throw({error, {invalid_sparse_map_entry, offset_too_large}});
        Offset+NumBytes > RealSize ->
            throw({error, {invalid_sparse_map_entry, offset_too_large}});
        I > 0 andalso LastOffset > Offset ->
            throw({error, {invalid_sparse_map_entry, overlapping_offsets}});
        true ->
            ok
    end,
    validate_sparse_entries(Rest, RealSize, I+1, Offset+NumBytes).


-spec parse_sparse_map(header_gnu(), reader_type()) ->
                              {[sparse_entry()], reader_type()}.
parse_sparse_map(#header_gnu{sparse=Sparse}, Reader)
  when Sparse#sparse_array.is_extended ->
    parse_sparse_map(Sparse, Reader, []);
parse_sparse_map(#header_gnu{sparse=Sparse}, Reader) ->
    {Sparse#sparse_array.entries, Reader}.
parse_sparse_map(#sparse_array{is_extended=true,entries=Entries}, Reader, Acc) ->
    case read_block(Reader) of
        eof ->
            throw({error, eof});
        {ok, Block, Reader2} ->
            Sparse2 = to_sparse_array(Block),
            parse_sparse_map(Sparse2, Reader2, Entries++Acc)
    end;
parse_sparse_map(#sparse_array{entries=Entries}, Reader, Acc) ->
    Sorted = lists:sort(fun (#sparse_entry{offset=A},#sparse_entry{offset=B}) ->
                                A =< B
                        end, Entries++Acc),
    {Sorted, Reader}.

%% Defined by taking the sum of the unsigned byte values of the
%% entire header record, treating the checksum bytes to as ASCII spaces
compute_checksum(<<H1:?V7_CHKSUM/binary,
                   H2:?V7_CHKSUM_LEN/binary,
                   Rest:(?BLOCK_SIZE - ?V7_CHKSUM - ?V7_CHKSUM_LEN)/binary,
                   _/binary>>) ->
    C0 = checksum(H1) + (byte_size(H2) * $\s),
    C1 = checksum(Rest),
    C0 + C1.

compute_signed_checksum(<<H1:?V7_CHKSUM/binary,
                          H2:?V7_CHKSUM_LEN/binary,
                          Rest:(?BLOCK_SIZE - ?V7_CHKSUM - ?V7_CHKSUM_LEN)/binary,
                          _/binary>>) ->
    C0 = signed_checksum(H1) + (byte_size(H2) * $\s),
    C1 = signed_checksum(Rest),
    C0 + C1.

%% Returns the checksum of a binary.
checksum(Bin) -> checksum(Bin, 0).
checksum(<<A/unsigned,Rest/binary>>, Sum) ->
    checksum(Rest, Sum+A);
checksum(<<>>, Sum) -> Sum.

signed_checksum(Bin) -> signed_checksum(Bin, 0).
signed_checksum(<<A/signed,Rest/binary>>, Sum) ->
    signed_checksum(Rest, Sum+A);
signed_checksum(<<>>, Sum) -> Sum.

-spec parse_numeric(binary()) -> non_neg_integer().
parse_numeric(<<>>) ->
    0;
parse_numeric(<<First, _/binary>> = Bin) ->
    %% check for base-256 format first
    %% if the bit is set, then all following bits constitute a two's
    %% complement encoded number in big-endian byte order
    if
        First band 16#80 =/= 0 ->
            %% Handling negative numbers relies on the following identity:
            %%     -a-1 == ^a
            %% If the number is negative, we use an inversion mask to invert
            %% the data bytes and treat the value as an unsigned number
            Inv = if First band 16#40 =/= 0 -> 16#00; true -> 16#FF end,
            Bytes = binary:bin_to_list(Bin),
            Reducer = fun (C, {I, X}) ->
                              C1 = C bxor Inv,
                              C2 = if I =:= 0 -> C1 band 16#7F; true -> C1 end,
                              if (X bsr 56) > 0 ->
                                      throw({error,integer_overflow});
                                 true ->
                                      {I+1, (X bsl 8) bor C2}
                              end
                      end,
            {_, N} = lists:foldl(Reducer, {0,0}, Bytes),
            if (N bsr 63) > 0 ->
                    throw({error, integer_overflow});
               true ->
                    if Inv =:= 16#FF ->
                            -1 bxor N;
                       true ->
                            N
                    end
            end;
        true ->
            %% normal case is an octal number
            parse_octal(Bin)
    end.

parse_octal(Bin) when is_binary(Bin) ->
    %% skip leading/trailing zero bytes and spaces
    do_parse_octal(Bin, <<>>).
do_parse_octal(<<>>, <<>>) ->
    0;
do_parse_octal(<<>>, Acc) ->
    case io_lib:fread("~8u", binary:bin_to_list(Acc)) of
        {error, _} -> throw({error, invalid_tar_checksum});
        {ok, [Octal], []} -> Octal;
        {ok, _, _} -> throw({error, invalid_tar_checksum})
    end;
do_parse_octal(<<$\s,Rest/binary>>, Acc) ->
    do_parse_octal(Rest, Acc);
do_parse_octal(<<0, Rest/binary>>, Acc) ->
    do_parse_octal(Rest, Acc);
do_parse_octal(<<C, Rest/binary>>, Acc) ->
    do_parse_octal(Rest, <<Acc/binary, C>>).

parse_string(Bin) when is_binary(Bin) ->
    do_parse_string(Bin, <<>>).
do_parse_string(<<>>, Acc) ->
    case unicode:characters_to_list(Acc) of
        Str when is_list(Str) ->
            Str;
        {incomplete, _Str, _Rest} ->
            binary:bin_to_list(Acc);
        {error, _Str, _Rest} ->
            throw({error, {bad_header, invalid_string}})
    end;
do_parse_string(<<0, _/binary>>, Acc) ->
    do_parse_string(<<>>, Acc);
do_parse_string(<<C, Rest/binary>>, Acc) ->
    do_parse_string(Rest, <<Acc/binary, C>>).

convert_header(Bin, #reader{pos=Pos}=Reader)
  when byte_size(Bin) =:= ?BLOCK_SIZE, (Pos rem ?BLOCK_SIZE) =:= 0 ->
    case get_format(Bin) of
        ?FORMAT_UNKNOWN ->
            throw({error, bad_header});
        {ok, Format, V7} ->
            unpack_format(Format, V7, Bin, Reader);
        {error, Reason} ->
            throw({error, {bad_header, Reason}})
    end;
convert_header(Bin, #reader{pos=Pos}) when byte_size(Bin) =:= ?BLOCK_SIZE ->
    throw({error, misaligned_read, Pos});
convert_header(Bin, _Reader) when byte_size(Bin) =:= 0 ->
    eof;
convert_header(_Bin, _Reader) ->
    throw({error, eof}).

%% Creates a partially-populated header record based
%% on the provided file_info record. If the file is
%% a symlink, then `link` is used as the link target.
%% If the file is a directory, a slash is appended to the name.
fileinfo_to_header(Name, #file_info{}=Fi, Link) when is_list(Name) ->
    BaseHeader = #tar_header{name=Name,
                             mtime=Fi#file_info.mtime,
                             atime=Fi#file_info.atime,
                             ctime=Fi#file_info.ctime,
                             mode=Fi#file_info.mode,
                             uid=Fi#file_info.uid,
                             gid=Fi#file_info.gid,
                             typeflag=?TYPE_REGULAR},
    do_fileinfo_to_header(BaseHeader, Fi, Link).

do_fileinfo_to_header(Header, #file_info{size=Size,type=regular}, _Link) ->
    Header#tar_header{size=Size,typeflag=?TYPE_REGULAR};
do_fileinfo_to_header(#tar_header{name=Name}=Header,
                      #file_info{type=directory}, _Link) ->
    Header#tar_header{name=Name++"/",typeflag=?TYPE_DIR};
do_fileinfo_to_header(Header, #file_info{type=symlink}, Link) ->
    Header#tar_header{typeflag=?TYPE_SYMLINK,linkname=Link};
do_fileinfo_to_header(Header, #file_info{type=device,mode=Mode}=Fi, _Link)
  when (Mode band ?S_IFMT) =:= ?S_IFCHR ->
    Header#tar_header{typeflag=?TYPE_CHAR,
                      devmajor=Fi#file_info.major_device,
                      devminor=Fi#file_info.minor_device};
do_fileinfo_to_header(Header, #file_info{type=device,mode=Mode}=Fi, _Link)
  when (Mode band ?S_IFMT) =:= ?S_IFBLK ->
    Header#tar_header{typeflag=?TYPE_BLOCK,
                      devmajor=Fi#file_info.major_device,
                      devminor=Fi#file_info.minor_device};
do_fileinfo_to_header(Header, #file_info{type=other,mode=Mode}, _Link)
  when (Mode band ?S_IFMT) =:= ?S_FIFO ->
    Header#tar_header{typeflag=?TYPE_FIFO};
do_fileinfo_to_header(Header, Fi, _Link) ->
    {error, {invalid_file_type, Header#tar_header.name, Fi}}.

is_ascii(Str) when is_list(Str) ->
    not lists:any(fun (Char) -> Char >= 16#80 end, Str);
is_ascii(Bin) when is_binary(Bin) ->
    is_ascii1(Bin).

is_ascii1(<<>>) ->
    true;
is_ascii1(<<C,_Rest/binary>>) when C >= 16#80 ->
    false;
is_ascii1(<<_, Rest/binary>>) ->
    is_ascii1(Rest).

to_ascii(Str) when is_list(Str) ->
    case is_ascii(Str) of
        true ->
            unicode:characters_to_binary(Str);
        false ->
            Chars = lists:filter(fun (Char) -> Char < 16#80 end, Str),
            unicode:characters_to_binary(Chars)
    end;
to_ascii(Bin) when is_binary(Bin) ->
    to_ascii(Bin, <<>>).
to_ascii(<<>>, Acc) ->
    Acc;
to_ascii(<<C, Rest/binary>>, Acc) when C < 16#80 ->
    to_ascii(Rest, <<Acc/binary,C>>);
to_ascii(<<_, Rest/binary>>, Acc) ->
    to_ascii(Rest, Acc).

is_header_only_type(?TYPE_SYMLINK) -> true;
is_header_only_type(?TYPE_LINK)    -> true;
is_header_only_type(?TYPE_DIR)     -> true;
is_header_only_type(_) -> false.

posix_to_erlang_time(Sec) ->
    OneMillion = 1000000,
    Time = calendar:now_to_datetime({Sec div OneMillion, Sec rem OneMillion, 0}),
    erlang:universaltime_to_localtime(Time).

foldl_read(#reader{access=read}=Reader, Fun, Accu, #read_opts{}=Opts)
  when is_function(Fun,4) ->
    case foldl_read0(Reader, Fun, Accu, Opts) of
        {ok, Result, _Reader2} ->
            Result;
        {error, _} = Err ->
            Err
    end;
foldl_read(#reader{access=Access}, _Fun, _Accu, _Opts) ->
    {error, {read_mode_expected, Access}};
foldl_read(TarName, Fun, Accu, #read_opts{}=Opts)
  when is_function(Fun,4) ->
    try open(TarName, [read|Opts#read_opts.open_mode]) of
        {ok, #reader{access=read}=Reader} ->
            foldl_read(Reader, Fun, Accu, Opts);
        {error, _} = Err ->
            Err
    catch
        throw:Err ->
            Err
    end.

foldl_read0(Reader, Fun, Accu, Opts) ->
    try foldl_read1(Fun, Accu, Reader, Opts, #{}) of
        {ok,_,_} = Ok ->
            Ok
    catch
        throw:{error, {Reason, Format, Args}} ->
            read_verbose(Opts, Format, Args),
            {error, Reason};
        throw:Err ->
            Err
    end.

foldl_read1(Fun, Accu0, Reader0, Opts, ExtraHeaders) ->
    {ok, Reader1} = skip_unread(Reader0),
    case get_header(Reader1) of
        eof ->
            Fun(eof, Reader1, Opts, Accu0);
        {Header, Reader2} ->
            case Header#tar_header.typeflag of
                ?TYPE_X_HEADER ->
                    {ExtraHeaders2, Reader3} = parse_pax(Reader2),
                    ExtraHeaders3 = maps:merge(ExtraHeaders, ExtraHeaders2),
                    foldl_read1(Fun, Accu0, Reader3, Opts, ExtraHeaders3);
                ?TYPE_GNU_LONGNAME ->
                    {RealName, Reader3} = get_real_name(Reader2),
                    ExtraHeaders2 = maps:put(?PAX_PATH,
                                             parse_string(RealName), ExtraHeaders),
                    foldl_read1(Fun, Accu0, Reader3, Opts, ExtraHeaders2);
                ?TYPE_GNU_LONGLINK ->
                    {RealName, Reader3} = get_real_name(Reader2),
                    ExtraHeaders2 = maps:put(?PAX_LINKPATH,
                                             parse_string(RealName), ExtraHeaders),
                    foldl_read1(Fun, Accu0, Reader3, Opts, ExtraHeaders2);
                _ ->
                    Header1 = merge_pax(Header, ExtraHeaders),
                    {ok, NewAccu, Reader3} = Fun(Header1, Reader2, Opts, Accu0),
                    foldl_read1(Fun, NewAccu, Reader3, Opts, #{})
            end
    end.

%% Applies all known PAX attributes to the current tar header
-spec merge_pax(tar_header(), #{binary() => binary()}) -> tar_header().
merge_pax(Header, ExtraHeaders) when is_map(ExtraHeaders) ->
    do_merge_pax(Header, maps:to_list(ExtraHeaders)).

do_merge_pax(Header, []) ->
    Header;
do_merge_pax(Header, [{?PAX_PATH, Path}|Rest]) ->
    do_merge_pax(Header#tar_header{name=unicode:characters_to_list(Path)}, Rest);
do_merge_pax(Header, [{?PAX_LINKPATH, LinkPath}|Rest]) ->
    do_merge_pax(Header#tar_header{linkname=unicode:characters_to_list(LinkPath)}, Rest);
do_merge_pax(Header, [{?PAX_GNAME, Gname}|Rest]) ->
    do_merge_pax(Header#tar_header{gname=unicode:characters_to_list(Gname)}, Rest);
do_merge_pax(Header, [{?PAX_UNAME, Uname}|Rest]) ->
    do_merge_pax(Header#tar_header{uname=unicode:characters_to_list(Uname)}, Rest);
do_merge_pax(Header, [{?PAX_UID, Uid}|Rest]) ->
    Uid2 = binary_to_integer(Uid),
    do_merge_pax(Header#tar_header{uid=Uid2}, Rest);
do_merge_pax(Header, [{?PAX_GID, Gid}|Rest]) ->
    Gid2 = binary_to_integer(Gid),
    do_merge_pax(Header#tar_header{gid=Gid2}, Rest);
do_merge_pax(Header, [{?PAX_ATIME, Atime}|Rest]) ->
    Atime2 = parse_pax_time(Atime),
    do_merge_pax(Header#tar_header{atime=Atime2}, Rest);
do_merge_pax(Header, [{?PAX_MTIME, Mtime}|Rest]) ->
    Mtime2 = parse_pax_time(Mtime),
    do_merge_pax(Header#tar_header{mtime=Mtime2}, Rest);
do_merge_pax(Header, [{?PAX_CTIME, Ctime}|Rest]) ->
    Ctime2 = parse_pax_time(Ctime),
    do_merge_pax(Header#tar_header{ctime=Ctime2}, Rest);
do_merge_pax(Header, [{?PAX_SIZE, Size}|Rest]) ->
    Size2 = binary_to_integer(Size),
    do_merge_pax(Header#tar_header{size=Size2}, Rest);
do_merge_pax(Header, [{<<?PAX_XATTR_STR, _Key/binary>>, _Value}|Rest]) ->
    do_merge_pax(Header, Rest);
do_merge_pax(Header, [_Ignore|Rest]) ->
    do_merge_pax(Header, Rest).

%% Returns the time since UNIX epoch as a datetime
-spec parse_pax_time(binary()) -> calendar:datetime().
parse_pax_time(Bin) when is_binary(Bin) ->
    TotalNano = case binary:split(Bin, [<<$.>>]) of
                    [SecondsStr, NanoStr0] ->
                        Seconds = binary_to_integer(SecondsStr),
                        if byte_size(NanoStr0) < ?MAX_NANO_INT_SIZE ->
                                %% right pad
                                PaddingN = ?MAX_NANO_INT_SIZE-byte_size(NanoStr0),
                                Padding = binary:copy(<<$0>>, PaddingN),
                                NanoStr1 = <<NanoStr0/binary,Padding/binary>>,
                                Nano = binary_to_integer(NanoStr1),
                                (Seconds*?BILLION)+Nano;
                           byte_size(NanoStr0) > ?MAX_NANO_INT_SIZE ->
                                %% right truncate
                                NanoStr1 = binary_part(NanoStr0, 0, ?MAX_NANO_INT_SIZE),
                                Nano = binary_to_integer(NanoStr1),
                                (Seconds*?BILLION)+Nano;
                           true ->
                                (Seconds*?BILLION)+binary_to_integer(NanoStr0)
                        end;
                    [SecondsStr] ->
                        binary_to_integer(SecondsStr)*?BILLION
                end,
    %% truncate to microseconds
    Micro = TotalNano div 1000,
    Mega = Micro div 1000000000000,
    Secs = Micro div 1000000 - (Mega*1000000),
    Micro2 = Micro rem 1000000,
    calendar:now_to_datetime({Mega, Secs, Micro2}).

%% Given a regular file reader, reads the whole file and
%% parses all extended attributes it contains.
parse_pax(#reg_file_reader{handle=Handle,num_bytes=0}) ->
    {#{}, Handle};
parse_pax(#reg_file_reader{handle=Handle0,num_bytes=NumBytes}) ->
    case do_read(Handle0, NumBytes) of
        {ok, Bytes, Handle1} ->
            do_parse_pax(Handle1, Bytes, #{});
        {error, _} = Err ->
            throw(Err)
    end.

do_parse_pax(Reader, <<>>, Headers) ->
    {Headers, Reader};
do_parse_pax(Reader, Bin, Headers) ->
    {Key, Value, Residual} = parse_pax_record(Bin),
    NewHeaders = maps:put(Key, Value, Headers),
    do_parse_pax(Reader, Residual, NewHeaders).

%% Parse an extended attribute
parse_pax_record(Bin) when is_binary(Bin) ->
    case binary:split(Bin, [<<$\n>>]) of
        [Record, Residual] ->
            case binary:split(Record, [<<$\s>>], [trim_all]) of
                [_Len, Record1] ->
                    case binary:split(Record1, [<<$=>>], [trim_all]) of
                        [AttrName, AttrValue] ->
                            {AttrName, AttrValue, Residual};
                        _Other ->
                            throw({error, malformed_pax_record})
                    end;
                _Other ->
                    throw({error, malformed_pax_record})
            end;
        _Other ->
            throw({error, malformed_pax_record})
    end.

get_real_name(#reg_file_reader{handle=Handle,num_bytes=0}) ->
    {"", Handle};
get_real_name(#reg_file_reader{handle=Handle0,num_bytes=NumBytes}) ->
    case do_read(Handle0, NumBytes) of
        {ok, RealName, Handle1} ->
            {RealName, Handle1};
        {error, _} = Err ->
            throw(Err)
    end;
get_real_name(#sparse_file_reader{num_bytes=NumBytes}=Reader0) ->
    case do_read(Reader0, NumBytes) of
        {ok, RealName, Reader1} ->
            {RealName, Reader1};
        {error, _} = Err ->
            throw(Err)
    end.

%% Skip the remaining bytes for the current file entry
skip_file(#reg_file_reader{handle=Handle0,pos=Pos,size=Size}=Reader) ->
    Padding = skip_padding(Size),
    AbsPos = Handle0#reader.pos + (Size-Pos) + Padding,
    case do_position(Handle0, AbsPos) of
        {ok, _, Handle1} ->
            Reader#reg_file_reader{handle=Handle1,num_bytes=0,pos=Size};
        Err ->
            throw(Err)
    end;
skip_file(#sparse_file_reader{pos=Pos,size=Size}=Reader) ->
    case do_read(Reader, Size-Pos) of
        {ok, _, Reader2} ->
            Reader2;
        Err ->
            throw(Err)
    end.

skip_padding(0) ->
    0;
skip_padding(Size) when (Size rem ?BLOCK_SIZE) =:= 0 ->
    0;
skip_padding(Size) when Size =< ?BLOCK_SIZE ->
    ?BLOCK_SIZE - Size;
skip_padding(Size) ->
    ?BLOCK_SIZE - (Size rem ?BLOCK_SIZE).

skip_unread(#reader{pos=Pos}=Reader0) when (Pos rem ?BLOCK_SIZE) > 0 ->
    Padding = skip_padding(Pos + ?BLOCK_SIZE),
    AbsPos = Pos + Padding,
    case do_position(Reader0, AbsPos) of
        {ok, _, Reader1} ->
            {ok, Reader1};
        Err ->
            throw(Err)
    end;
skip_unread(#reader{}=Reader) ->
    {ok, Reader};
skip_unread(#reg_file_reader{handle=Handle,num_bytes=0}) ->
    skip_unread(Handle);
skip_unread(#reg_file_reader{}=Reader) ->
    #reg_file_reader{handle=Handle} = skip_file(Reader),
    {ok, Handle};
skip_unread(#sparse_file_reader{handle=Handle,num_bytes=0}) ->
    skip_unread(Handle);
skip_unread(#sparse_file_reader{}=Reader) ->
    #sparse_file_reader{handle=Handle} = skip_file(Reader),
    {ok, Handle}.

write_extracted_element(#tar_header{name=Name,typeflag=Type},
                        Bin,
                        #read_opts{output=memory}=Opts) ->
    case typeflag(Type) of
        regular ->
            read_verbose(Opts, "x ~ts~n", [Name]),
            {ok, {Name, Bin}};
        _ ->
            ok
    end;
write_extracted_element(#tar_header{name=Name0}=Header, Bin, Opts) ->
    Name1 = filename:absname(Name0, Opts#read_opts.cwd),
    Created =
        case typeflag(Header#tar_header.typeflag) of
            regular ->
                create_regular(Name1, Name0, Bin, Opts);
            directory ->
                read_verbose(Opts, "x ~ts~n", [Name0]),
                create_extracted_dir(Name1, Opts);
            symlink ->
                read_verbose(Opts, "x ~ts~n", [Name0]),
                create_symlink(Name1, Header#tar_header.linkname, Opts);
            Device when Device =:= char orelse Device =:= block ->
                %% char/block devices will be created as empty files
                %% and then have their major/minor device set later
                create_regular(Name1, Name0, <<>>, Opts);
            fifo ->
                %% fifo devices will be created as empty files
                create_regular(Name1, Name0, <<>>, Opts);
            Other -> % Ignore.
                read_verbose(Opts, "x ~ts - unsupported type ~p~n",
                             [Name0, Other]),
                not_written
        end,
    case Created of
        ok  -> set_extracted_file_info(Name1, Header);
        not_written -> ok
    end.

create_regular(Name, NameInArchive, Bin, Opts) ->
    case write_extracted_file(Name, Bin, Opts) of
        not_written ->
            read_verbose(Opts, "x ~ts - exists, not created~n", [NameInArchive]),
            not_written;
        Ok ->
            read_verbose(Opts, "x ~ts~n", [NameInArchive]),
            Ok
    end.

create_extracted_dir(Name, _Opts) ->
    case file:make_dir(Name) of
        ok -> ok;
        {error,enotsup} -> not_written;
        {error,eexist} -> not_written;
        {error,enoent} -> make_dirs(Name, dir);
        {error,Reason} -> throw({error, Reason})
    end.

create_symlink(Name, Linkname, Opts) ->
    case file:make_symlink(Linkname, Name) of
        ok -> ok;
        {error,enoent} ->
            ok = make_dirs(Name, file),
            create_symlink(Name, Linkname, Opts);
        {error,eexist} -> not_written;
        {error,enotsup} ->
            read_verbose(Opts, "x ~ts - symbolic links not supported~n", [Name]),
            not_written;
        {error,Reason} -> throw({error, Reason})
    end.

write_extracted_file(Name, Bin, Opts) ->
    Write =
        case Opts#read_opts.keep_old_files of
            true ->
                case file:read_file_info(Name) of
                    {ok, _} -> false;
                    _ -> true
                end;
            false -> true
        end,
    case Write of
        true  -> write_file(Name, Bin);
        false -> not_written
    end.

write_file(Name, Bin) ->
    case file:write_file(Name, Bin) of
        ok -> ok;
        {error,enoent} ->
            ok = make_dirs(Name, file),
            write_file(Name, Bin);
        {error,Reason} ->
            throw({error, Reason})
    end.

set_extracted_file_info(_, #tar_header{typeflag = ?TYPE_SYMLINK}) -> ok;
set_extracted_file_info(_, #tar_header{typeflag = ?TYPE_LINK})    -> ok;
set_extracted_file_info(Name, #tar_header{typeflag = ?TYPE_CHAR}=Header) ->
    set_device_info(Name, Header);
set_extracted_file_info(Name, #tar_header{typeflag = ?TYPE_BLOCK}=Header) ->
    set_device_info(Name, Header);
set_extracted_file_info(Name, #tar_header{mtime=Mtime,mode=Mode}) ->
    Info = #file_info{mode=Mode, mtime=Mtime},
    file:write_file_info(Name, Info).

set_device_info(Name, #tar_header{}=Header) ->
    Mtime = Header#tar_header.mtime,
    Mode = Header#tar_header.mode,
    Devmajor = Header#tar_header.devmajor,
    Devminor = Header#tar_header.devminor,
    Info = #file_info{
              mode=Mode,
              mtime=Mtime,
              major_device=Devmajor,
              minor_device=Devminor
             },
    file:write_file_info(Name, Info).

%% Makes all directories leading up to the file.

make_dirs(Name, file) ->
    filelib:ensure_dir(Name);
make_dirs(Name, dir) ->
    filelib:ensure_dir(filename:join(Name,"*")).

%% Prints the message on if the verbose option is given (for reading).
read_verbose(#read_opts{verbose=true}, Format, Args) ->
    io:format(Format, Args);
read_verbose(_, _, _) ->
    ok.

%% Prints the message on if the verbose option is given.
add_verbose(#add_opts{verbose=true}, Format, Args) ->
    io:format(Format, Args);
add_verbose(_, _, _) ->
    ok.

%%%%%%%%%%%%%%%%%%
%% I/O primitives
%%%%%%%%%%%%%%%%%%

do_write(#reader{handle=Handle,func=Fun}=Reader0, Data)
  when is_function(Fun,2) ->
    case Fun(write,{Handle,Data}) of
        ok ->
            {ok, Pos, Reader1} = do_position(Reader0, {cur,0}),
            {ok, Reader1#reader{pos=Pos}};
        {error, _} = Err ->
            Err
    end.

do_copy(#reader{func=Fun}=Reader, Source, #add_opts{chunk_size=0}=Opts)
  when is_function(Fun, 2) ->
    do_copy(Reader, Source, Opts#add_opts{chunk_size=65536});
do_copy(#reader{func=Fun}=Reader, Source, #add_opts{chunk_size=ChunkSize})
    when is_function(Fun, 2) ->
    case file:open(Source, [read, binary]) of
        {ok, SourceFd} ->
            case copy_chunked(Reader, SourceFd, ChunkSize, 0) of
                {ok, _Copied, _Reader2} = Ok->
                    _ = file:close(SourceFd),
                    Ok;
                Err ->
                    _ = file:close(SourceFd),
                    throw(Err)
            end;
        Err ->
            throw(Err)
    end.

copy_chunked(#reader{}=Reader, Source, ChunkSize, Copied) ->
    case file:read(Source, ChunkSize) of
        {ok, Bin} ->
            {ok, Reader2} = do_write(Reader, Bin),
            copy_chunked(Reader2, Source, ChunkSize, Copied+byte_size(Bin));
        eof ->
            {ok, Copied, Reader};
        Other ->
            Other
    end.


do_position(#reader{handle=Handle,func=Fun}=Reader, Pos)
  when is_function(Fun,2)->
    case Fun(position, {Handle,Pos}) of
        {ok, NewPos} ->
            %% since Pos may not always be an absolute seek,
            %% make sure we update the reader with the new absolute position
            {ok, AbsPos} = Fun(position, {Handle, {cur, 0}}),
            {ok, NewPos, Reader#reader{pos=AbsPos}};
        Other ->
            Other
    end.

do_read(#reg_file_reader{handle=Handle,pos=Pos,size=Size}=Reader, Len) ->
    NumBytes = Size - Pos,
    ActualLen = if NumBytes - Len < 0 -> NumBytes; true -> Len end,
    case do_read(Handle, ActualLen) of
        {ok, Bin, Handle2} ->
            NewPos = Pos + ActualLen,
            NumBytes2 = Size - NewPos,
            Reader1 = Reader#reg_file_reader{
                        handle=Handle2,
                        pos=NewPos,
                        num_bytes=NumBytes2},
            {ok, Bin, Reader1};
        Other ->
            Other
    end;
do_read(#sparse_file_reader{}=Reader, Len) ->
    do_sparse_read(Reader, Len);
do_read(#reader{pos=Pos,handle=Handle,func=Fun}=Reader, Len)
  when is_function(Fun,2)->
    %% Always convert to binary internally
    case Fun(read2,{Handle,Len}) of
        {ok, List} when is_list(List) ->
            Bin = list_to_binary(List),
            NewPos = Pos+byte_size(Bin),
            {ok, Bin, Reader#reader{pos=NewPos}};
        {ok, Bin} when is_binary(Bin) ->
            NewPos = Pos+byte_size(Bin),
            {ok, Bin, Reader#reader{pos=NewPos}};
        Other ->
            Other
    end.


do_sparse_read(Reader, Len) ->
    do_sparse_read(Reader, Len, <<>>).

do_sparse_read(#sparse_file_reader{sparse_map=[#sparse_entry{num_bytes=0}|Entries]
                                  }=Reader0, Len, Acc) ->
    %% skip all empty fragments
    Reader1 = Reader0#sparse_file_reader{sparse_map=Entries},
    do_sparse_read(Reader1, Len, Acc);
do_sparse_read(#sparse_file_reader{sparse_map=[],
                                   pos=Pos,size=Size}=Reader0, Len, Acc)
  when Pos < Size ->
    %% if there are no more fragments, it is possible that there is one last sparse hole
    %% this behaviour matches the BSD tar utility
    %% however, GNU tar stops returning data even if we haven't reached the end
    {ok, Bin, Reader1} = read_sparse_hole(Reader0, Size, Len),
    do_sparse_read(Reader1, Len-byte_size(Bin), <<Acc/binary,Bin/binary>>);
do_sparse_read(#sparse_file_reader{sparse_map=[]}=Reader, _Len, Acc) ->
    {ok, Acc, Reader};
do_sparse_read(#sparse_file_reader{}=Reader, 0, Acc) ->
    {ok, Acc, Reader};
do_sparse_read(#sparse_file_reader{sparse_map=[#sparse_entry{offset=Offset}|_],
                                   pos=Pos}=Reader0, Len, Acc)
  when Pos < Offset ->
    {ok, Bin, Reader1} = read_sparse_hole(Reader0, Offset, Offset-Pos),
    do_sparse_read(Reader1, Len-byte_size(Bin), <<Acc/binary,Bin/binary>>);
do_sparse_read(#sparse_file_reader{sparse_map=[Entry|Entries],
                                   pos=Pos}=Reader0, Len, Acc) ->
    %% we're in a data fragment, so read from it
    %% end offset of fragment
    EndPos = Entry#sparse_entry.offset + Entry#sparse_entry.num_bytes,
    %% bytes left in fragment
    NumBytes = EndPos - Pos,
    ActualLen = if Len > NumBytes -> NumBytes; true -> Len end,
    case do_read(Reader0#sparse_file_reader.handle, ActualLen) of
        {ok, Bin, Handle} ->
            BytesRead = byte_size(Bin),
            ActualEndPos = Pos+BytesRead,
            Reader1 = if ActualEndPos =:= EndPos ->
                              Reader0#sparse_file_reader{sparse_map=Entries};
                         true ->
                              Reader0
                      end,
            Size = Reader1#sparse_file_reader.size,
            NumBytes2 = Size - ActualEndPos,
            Reader2 = Reader1#sparse_file_reader{
                        handle=Handle,
                        pos=ActualEndPos,
                        num_bytes=NumBytes2},
            do_sparse_read(Reader2, Len-byte_size(Bin), <<Acc/binary,Bin/binary>>);
        Other ->
            Other
    end.

%% Reads a sparse hole ending at Offset
read_sparse_hole(#sparse_file_reader{pos=Pos}=Reader, Offset, Len) ->
    N = Offset - Pos,
    N2 = if N > Len ->
                 Len;
            true ->
                 N
         end,
    Bin = <<0:N2/unit:8>>,
    NumBytes = Reader#sparse_file_reader.size - (Pos+N2),
    {ok, Bin, Reader#sparse_file_reader{
                num_bytes=NumBytes,
                pos=Pos+N2}}.

-spec do_close(reader()) -> ok | {error, term()}.
do_close(#reader{handle=Handle,func=Fun}) when is_function(Fun,2) ->
    Fun(close,Handle).

%%%%%%%%%%%%%%%%%%
%% Option parsing
%%%%%%%%%%%%%%%%%%

extract_opts(List) ->
    extract_opts(List, default_options()).

table_opts(List) ->
    read_opts(List, default_options()).

default_options() ->
    {ok, Cwd} = file:get_cwd(),
    #read_opts{cwd=Cwd}.

extract_opts([keep_old_files|Rest], Opts) ->
    extract_opts(Rest, Opts#read_opts{keep_old_files=true});
extract_opts([{cwd, Cwd}|Rest], Opts) ->
    extract_opts(Rest, Opts#read_opts{cwd=Cwd});
extract_opts([{files, Files}|Rest], Opts) ->
    Set = ordsets:from_list(Files),
    extract_opts(Rest, Opts#read_opts{files=Set});
extract_opts([memory|Rest], Opts) ->
    extract_opts(Rest, Opts#read_opts{output=memory});
extract_opts([compressed|Rest], Opts=#read_opts{open_mode=OpenMode}) ->
    extract_opts(Rest, Opts#read_opts{open_mode=[compressed|OpenMode]});
extract_opts([cooked|Rest], Opts=#read_opts{open_mode=OpenMode}) ->
    extract_opts(Rest, Opts#read_opts{open_mode=[cooked|OpenMode]});
extract_opts([verbose|Rest], Opts) ->
    extract_opts(Rest, Opts#read_opts{verbose=true});
extract_opts([Other|Rest], Opts) ->
    extract_opts(Rest, read_opts([Other], Opts));
extract_opts([], Opts) ->
    Opts.

read_opts([compressed|Rest], Opts=#read_opts{open_mode=OpenMode}) ->
    read_opts(Rest, Opts#read_opts{open_mode=[compressed|OpenMode]});
read_opts([cooked|Rest], Opts=#read_opts{open_mode=OpenMode}) ->
    read_opts(Rest, Opts#read_opts{open_mode=[cooked|OpenMode]});
read_opts([verbose|Rest], Opts) ->
    read_opts(Rest, Opts#read_opts{verbose=true});
read_opts([_|Rest], Opts) ->
    read_opts(Rest, Opts);
read_opts([], Opts) ->
    Opts.