diff options
Diffstat (limited to 'lib/stdlib/doc')
-rw-r--r-- | lib/stdlib/doc/src/erl_tar.xml | 110 |
1 files changed, 109 insertions, 1 deletions
diff --git a/lib/stdlib/doc/src/erl_tar.xml b/lib/stdlib/doc/src/erl_tar.xml index 7f25f5b7bc..95eefb8f9b 100644 --- a/lib/stdlib/doc/src/erl_tar.xml +++ b/lib/stdlib/doc/src/erl_tar.xml @@ -80,6 +80,12 @@ </section> <section> + <title>OTHER STORAGE MEDIA</title> + <p>The <c>erl_ftp</c> module normally accesses the tar-file on disk using the <seealso marker="kernel:file">file module</seealso>. When other needs arise, there is a way to define your own low-level Erlang functions to perform the writing and reading on the storage media. See <seealso marker="#init/3">init/3</seealso> for usage.</p> + <p>An example of this is the sftp support in <seealso marker="ssh:ssh_sftp#open_tar/3">ssh_sftp:open_tar/3</seealso>. That function opens a tar file on a remote machine using an sftp channel.</p> + </section> + + <section> <title>LIMITATIONS</title> <p>For maximum compatibility, it is safe to archive files with names up to 100 characters in length. Such tar files can generally be @@ -99,7 +105,8 @@ <v>TarDescriptor = term()</v> <v>Filename = filename()</v> <v>Options = [Option]</v> - <v>Option = dereference|verbose</v> + <v>Option = dereference|verbose|{chunks,ChunkSize}</v> + <v>ChunkSize = positive_integer()</v> <v>RetValue = ok|{error,{Filename,Reason}}</v> <v>Reason = term()</v> </type> @@ -119,6 +126,12 @@ <item> <p>Print an informational message about the file being added.</p> </item> + <tag><c>{chunks,ChunkSize}</c></tag> + <item> + <p>Read data in parts from the file. This is intended for memory-limited + machines that for example builds a tar file on a remote machine over + <seealso marker="ssh:ssh_sftp#open_tar/3">sftp</seealso>.</p> + </item> </taglist> </desc> </func> @@ -389,6 +402,101 @@ </warning> </desc> </func> + + <func> + <name>init(UserPrivate, AccessMode, Fun) -> {ok,TarDescriptor} | {error,Reason} +</name> + <fsummary>Creates a TarDescriptor used in subsequent tar operations when + defining own low-level storage access functions + </fsummary> + <type> + <v>UserPrivate = term()</v> + <v>AccessMode = [write] | [read]</v> + <v>Fun when AccessMode is [write] = fun(write, {UserPrivate,DataToWrite})->...; + (position,{UserPrivate,Position})->...; + (close, UserPrivate)->... + end + </v> + <v>Fun when AccessMode is [read] = fun(read2, {UserPrivate,Size})->...; + (position,{UserPrivate,Position})->...; + (close, UserPrivate)->... + end + </v> + <v>TarDescriptor = term()</v> + <v>Reason = term()</v> + </type> + <desc> + <p>The <c>Fun</c> is the definition of what to do when the different + storage operations functions are to be called from the higher tar + handling functions (<c>add/3</c>, <c>add/4</c>, <c>close/1</c>...). + </p> + <p>The <c>Fun</c> will be called when the tar function wants to do + a low-level operation, like writing a block to a file. The Fun is called + as <c>Fun(Op,{UserPrivate,Parameters...})</c> where <c>Op</c> is the operation name, + <c>UserPrivate</c> is the term passed as the first argument to <c>init/1</c> and + <c>Parameters...</c> are the data added by the tar function to be passed down to + the storage handling function. + </p> + <p>The parameter <c>UserPrivate</c> is typically the result of opening a low level + structure like a file descriptor, a sftp channel id or such. The different <c>Fun</c> + clauses operates on that very term. + </p> + <p>The fun clauses parameter lists are: + <taglist> + <tag><c>(write, {UserPrivate,DataToWrite})</c></tag> + <item>Write the term <c>DataToWrite</c> using <c>UserPrivate</c></item> + <tag><c>(close, UserPrivate)</c></tag> + <item>Close the access.</item> + <tag><c>(read2, {UserPrivate,Size})</c></tag> + <item>Read using <c>UserPrivate</c> but only <c>Size</c> bytes. Note that there is + only an arity-2 read function, not an arity-1 + </item> + <tag><c> (position,{UserPrivate,Position})</c></tag> + <item>Sets the position of <c>UserPrivate</c> as defined for files in <seealso marker="kernel:file#position-2">file:position/2</seealso></item> + <tag><c></c></tag> + <item></item> + </taglist> + </p> + <p>A complete <c>Fun</c> parameter for reading and writing on files using the + <seealso marker="kernel:file">file module</seealso> could be: + </p> + <code type="none"> + ExampleFun = + fun(write, {Fd,Data}) -> file:write(Fd, Data); + (position, {Fd,Pos}) -> file:position(Fd, Pos); + (read2, {Fd,Size}) -> file:read(Fd,Size); + (close, Fd) -> file:close(Fd) + end + </code> + <p>where <c>Fd</c> was given to the <c>init/3</c> function as:</p> + <code> + {ok,Fd} = file:open(Name,...). + {ok,TarDesc} = erl_tar:init(Fd, [write], ExampleFun), + </code> + <p>The <c>TarDesc</c> is then used:</p> + <code> + erl_tar:add(TarDesc, SomeValueIwantToAdd, FileNameInTarFile), + ...., + erl_tar:close(TarDesc) + </code> + <p>When the erl_tar core wants to e.g. write a piece of Data, it would call + <c>ExampleFun(write,{UserPrivate,Data})</c>. + </p> + <note> + <p>The example above with <c>file</c> module operations is not necessary to + use directly since that is what the <seealso marker="#open">open</seealso> function + in principle does. + </p> + </note> + <warning> + <p>The <c>TarDescriptor</c> term is not a file descriptor. + You should not rely on the specific contents of the <c>TarDescriptor</c> + term, as it may change in future versions as more features are added + to the <c>erl_tar</c> module.</p> + </warning> + </desc> + </func> + <func> <name>table(Name) -> RetValue</name> <fsummary>Retrieve the name of all files in a tar file</fsummary> |