/usr/include/d2/4.6/std/zip.d is in libphobos2-4.6-dev 0.29.1-4.6.3-1ubuntu1.
This file is owned by root:root, with mode 0o644.
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/**
* Read/write data in the $(LINK2 http://www.info-_zip.org, zip archive) format.
* Makes use of the etc.c.zlib compression library.
*
* Bugs:
* $(UL
* $(LI Multi-disk zips not supported.)
* $(LI Only Zip version 20 formats are supported.)
* $(LI Only supports compression modes 0 (no compression) and 8 (deflate).)
* $(LI Does not support encryption.)
* $(LI $(BUGZILLA 592))
* $(LI $(BUGZILLA 1832))
* $(LI $(BUGZILLA 2137))
* $(LI $(BUGZILLA 2138))
* )
*
* Macros:
* WIKI = Phobos/StdZip
*
* Copyright: Copyright Digital Mars 2000 - 2009.
* License: <a href="http://www.boost.org/LICENSE_1_0.txt">Boost License 1.0</a>.
* Authors: $(WEB digitalmars.com, Walter Bright)
* Source: $(PHOBOSSRC std/_zip.d)
*/
/* Copyright Digital Mars 2000 - 2009.
* Distributed under the Boost Software License, Version 1.0.
* (See accompanying file LICENSE_1_0.txt or copy at
* http://www.boost.org/LICENSE_1_0.txt)
*/
module std.zip;
import std.zlib;
import std.datetime;
import core.bitop;
import std.conv;
//debug=print;
/** Thrown on error.
*/
class ZipException : Exception
{
this(string msg)
{
super("ZipException: " ~ msg);
}
}
/**
* A member of the ZipArchive.
*/
class ArchiveMember
{
ushort madeVersion = 20; /// Read Only
ushort extractVersion = 20; /// Read Only
ushort flags; /// Read/Write: normally set to 0
ushort compressionMethod; /// Read/Write: 0 for compression, 8 for deflate
std.datetime.DosFileTime time; /// Read/Write: Last modified time of the member. It's in the DOS date/time format.
uint crc32; /// Read Only: cyclic redundancy check (CRC) value
uint compressedSize; /// Read Only: size of data of member in compressed form.
uint expandedSize; /// Read Only: size of data of member in expanded form.
ushort diskNumber; /// Read Only: should be 0.
ushort internalAttributes; /// Read/Write
uint externalAttributes; /// Read/Write
private uint offset;
/**
* Read/Write: Usually the file name of the archive member; it is used to
* index the archive directory for the member. Each member must have a unique
* name[]. Do not change without removing member from the directory first.
*/
string name;
ubyte[] extra; /// Read/Write: extra data for this member.
string comment; /// Read/Write: comment associated with this member.
ubyte[] compressedData; /// Read Only: data of member in compressed form.
ubyte[] expandedData; /// Read/Write: data of member in uncompressed form.
debug(print)
{
void print()
{
printf("name = '%.*s'\n", name.length, name.ptr);
printf("\tcomment = '%.*s'\n", comment.length, comment.ptr);
printf("\tmadeVersion = x%04x\n", madeVersion);
printf("\textractVersion = x%04x\n", extractVersion);
printf("\tflags = x%04x\n", flags);
printf("\tcompressionMethod = %d\n", compressionMethod);
printf("\ttime = %d\n", time);
printf("\tcrc32 = x%08x\n", crc32);
printf("\texpandedSize = %d\n", expandedSize);
printf("\tcompressedSize = %d\n", compressedSize);
printf("\tinternalAttributes = x%04x\n", internalAttributes);
printf("\texternalAttributes = x%08x\n", externalAttributes);
}
}
}
/**
* Object representing the entire archive.
* ZipArchives are collections of ArchiveMembers.
*/
class ZipArchive
{
ubyte[] data; /// Read Only: array representing the entire contents of the archive.
uint endrecOffset;
uint diskNumber; /// Read Only: 0 since multi-disk zip archives are not supported.
uint diskStartDir; /// Read Only: 0 since multi-disk zip archives are not supported.
uint numEntries; /// Read Only: number of ArchiveMembers in the directory.
uint totalEntries; /// Read Only: same as totalEntries.
string comment; /// Read/Write: the archive comment. Must be less than 65536 bytes in length.
/**
* Read Only: array indexed by the name of each member of the archive.
* Example:
* All the members of the archive can be accessed with a foreach loop:
* --------------------
* ZipArchive archive = new ZipArchive(data);
* foreach (ArchiveMember am; archive.directory)
* {
* writefln("member name is '%s'", am.name);
* }
* --------------------
*/
ArchiveMember[string] directory;
debug (print)
{
void print()
{
printf("\tdiskNumber = %u\n", diskNumber);
printf("\tdiskStartDir = %u\n", diskStartDir);
printf("\tnumEntries = %u\n", numEntries);
printf("\ttotalEntries = %u\n", totalEntries);
printf("\tcomment = '%.*s'\n", comment.length, comment.ptr);
}
}
/* ============ Creating a new archive =================== */
/** Constructor to use when creating a new archive.
*/
this()
{
}
/** Add de to the archive.
*/
void addMember(ArchiveMember de)
{
directory[de.name] = de;
}
/** Delete de from the archive.
*/
void deleteMember(ArchiveMember de)
{
directory.remove(de.name);
}
/**
* Construct an archive out of the current members of the archive.
*
* Fills in the properties data[], diskNumber, diskStartDir, numEntries,
* totalEntries, and directory[].
* For each ArchiveMember, fills in properties crc32, compressedSize,
* compressedData[].
*
* Returns: array representing the entire archive.
*/
void[] build()
{ uint i;
uint directoryOffset;
if (comment.length > 0xFFFF)
throw new ZipException("archive comment longer than 65535");
// Compress each member; compute size
uint archiveSize = 0;
uint directorySize = 0;
foreach (ArchiveMember de; directory)
{
de.expandedSize = to!uint(de.expandedData.length);
switch (de.compressionMethod)
{
case 0:
de.compressedData = de.expandedData;
break;
case 8:
de.compressedData = cast(ubyte[])std.zlib.compress(cast(void[])de.expandedData);
de.compressedData = de.compressedData[2 .. de.compressedData.length - 4];
break;
default:
throw new ZipException("unsupported compression method");
}
de.compressedSize = to!uint(de.compressedData.length);
de.crc32 = std.zlib.crc32(0, cast(void[])de.expandedData);
archiveSize += 30 + de.name.length +
de.extra.length +
de.compressedSize;
directorySize += 46 + de.name.length +
de.extra.length +
de.comment.length;
}
data = new ubyte[archiveSize + directorySize + 22 + comment.length];
// Populate the data[]
// Store each archive member
i = 0;
foreach (ArchiveMember de; directory)
{
de.offset = i;
data[i .. i + 4] = cast(ubyte[])"PK\x03\x04";
putUshort(i + 4, de.extractVersion);
putUshort(i + 6, de.flags);
putUshort(i + 8, de.compressionMethod);
putUint (i + 10, cast(uint)de.time);
putUint (i + 14, de.crc32);
putUint (i + 18, de.compressedSize);
putUint (i + 22, to!uint(de.expandedData.length));
putUshort(i + 26, cast(ushort)de.name.length);
putUshort(i + 28, cast(ushort)de.extra.length);
i += 30;
data[i .. i + de.name.length] = cast(ubyte[])de.name[];
i += de.name.length;
data[i .. i + de.extra.length] = cast(ubyte[])de.extra[];
i += de.extra.length;
data[i .. i + de.compressedSize] = de.compressedData[];
i += de.compressedSize;
}
// Write directory
directoryOffset = i;
numEntries = 0;
foreach (ArchiveMember de; directory)
{
data[i .. i + 4] = cast(ubyte[])"PK\x01\x02";
putUshort(i + 4, de.madeVersion);
putUshort(i + 6, de.extractVersion);
putUshort(i + 8, de.flags);
putUshort(i + 10, de.compressionMethod);
putUint (i + 12, cast(uint)de.time);
putUint (i + 16, de.crc32);
putUint (i + 20, de.compressedSize);
putUint (i + 24, de.expandedSize);
putUshort(i + 28, cast(ushort)de.name.length);
putUshort(i + 30, cast(ushort)de.extra.length);
putUshort(i + 32, cast(ushort)de.comment.length);
putUshort(i + 34, de.diskNumber);
putUshort(i + 36, de.internalAttributes);
putUint (i + 38, de.externalAttributes);
putUint (i + 42, de.offset);
i += 46;
data[i .. i + de.name.length] = cast(ubyte[])de.name[];
i += de.name.length;
data[i .. i + de.extra.length] = cast(ubyte[])de.extra[];
i += de.extra.length;
data[i .. i + de.comment.length] = cast(ubyte[])de.comment[];
i += de.comment.length;
numEntries++;
}
totalEntries = numEntries;
// Write end record
endrecOffset = i;
data[i .. i + 4] = cast(ubyte[])"PK\x05\x06";
putUshort(i + 4, cast(ushort)diskNumber);
putUshort(i + 6, cast(ushort)diskStartDir);
putUshort(i + 8, cast(ushort)numEntries);
putUshort(i + 10, cast(ushort)totalEntries);
putUint (i + 12, directorySize);
putUint (i + 16, directoryOffset);
putUshort(i + 20, cast(ushort)comment.length);
i += 22;
// Write archive comment
assert(i + comment.length == data.length);
data[i .. data.length] = cast(ubyte[])comment[];
return cast(void[])data;
}
/* ============ Reading an existing archive =================== */
/**
* Constructor to use when reading an existing archive.
*
* Fills in the properties data[], diskNumber, diskStartDir, numEntries,
* totalEntries, comment[], and directory[].
* For each ArchiveMember, fills in
* properties madeVersion, extractVersion, flags, compressionMethod, time,
* crc32, compressedSize, expandedSize, compressedData[], diskNumber,
* internalAttributes, externalAttributes, name[], extra[], comment[].
* Use expand() to get the expanded data for each ArchiveMember.
*
* Params:
* buffer = the entire contents of the archive.
*/
this(void[] buffer)
{ int iend;
int i;
int endcommentlength;
uint directorySize;
uint directoryOffset;
this.data = cast(ubyte[]) buffer;
// Find 'end record index' by searching backwards for signature
iend = to!uint(data.length) - 66000;
if (iend < 0)
iend = 0;
for (i = to!uint(data.length) - 22; 1; i--)
{
if (i < iend)
throw new ZipException("no end record");
if (data[i .. i + 4] == cast(ubyte[])"PK\x05\x06")
{
endcommentlength = getUshort(i + 20);
if (i + 22 + endcommentlength > data.length)
continue;
comment = cast(string)(data[i + 22 .. i + 22 + endcommentlength]);
endrecOffset = i;
break;
}
}
// Read end record data
diskNumber = getUshort(i + 4);
diskStartDir = getUshort(i + 6);
numEntries = getUshort(i + 8);
totalEntries = getUshort(i + 10);
if (numEntries != totalEntries)
throw new ZipException("multiple disk zips not supported");
directorySize = getUint(i + 12);
directoryOffset = getUint(i + 16);
if (directoryOffset + directorySize > i)
throw new ZipException("corrupted directory");
i = directoryOffset;
for (int n = 0; n < numEntries; n++)
{
/* The format of an entry is:
* 'PK' 1, 2
* directory info
* path
* extra data
* comment
*/
uint offset;
uint namelen;
uint extralen;
uint commentlen;
if (data[i .. i + 4] != cast(ubyte[])"PK\x01\x02")
throw new ZipException("invalid directory entry 1");
ArchiveMember de = new ArchiveMember();
de.madeVersion = getUshort(i + 4);
de.extractVersion = getUshort(i + 6);
de.flags = getUshort(i + 8);
de.compressionMethod = getUshort(i + 10);
de.time = cast(DosFileTime)getUint(i + 12);
de.crc32 = getUint(i + 16);
de.compressedSize = getUint(i + 20);
de.expandedSize = getUint(i + 24);
namelen = getUshort(i + 28);
extralen = getUshort(i + 30);
commentlen = getUshort(i + 32);
de.diskNumber = getUshort(i + 34);
de.internalAttributes = getUshort(i + 36);
de.externalAttributes = getUint(i + 38);
de.offset = getUint(i + 42);
i += 46;
if (i + namelen + extralen + commentlen > directoryOffset + directorySize)
throw new ZipException("invalid directory entry 2");
de.name = cast(string)(data[i .. i + namelen]);
i += namelen;
de.extra = data[i .. i + extralen];
i += extralen;
de.comment = cast(string)(data[i .. i + commentlen]);
i += commentlen;
directory[de.name] = de;
}
if (i != directoryOffset + directorySize)
throw new ZipException("invalid directory entry 3");
}
/*****
* Decompress the contents of archive member de and return the expanded
* data.
*
* Fills in properties extractVersion, flags, compressionMethod, time,
* crc32, compressedSize, expandedSize, expandedData[], name[], extra[].
*/
ubyte[] expand(ArchiveMember de)
{ uint namelen;
uint extralen;
if (data[de.offset .. de.offset + 4] != cast(ubyte[])"PK\x03\x04")
throw new ZipException("invalid directory entry 4");
// These values should match what is in the main zip archive directory
de.extractVersion = getUshort(de.offset + 4);
de.flags = getUshort(de.offset + 6);
de.compressionMethod = getUshort(de.offset + 8);
de.time = cast(DosFileTime)getUint(de.offset + 10);
de.crc32 = getUint(de.offset + 14);
de.compressedSize = getUint(de.offset + 18);
de.expandedSize = getUint(de.offset + 22);
namelen = getUshort(de.offset + 26);
extralen = getUshort(de.offset + 28);
debug(print)
{
printf("\t\texpandedSize = %d\n", de.expandedSize);
printf("\t\tcompressedSize = %d\n", de.compressedSize);
printf("\t\tnamelen = %d\n", namelen);
printf("\t\textralen = %d\n", extralen);
}
if (de.flags & 1)
throw new ZipException("encryption not supported");
int i;
i = de.offset + 30 + namelen + extralen;
if (i + de.compressedSize > endrecOffset)
throw new ZipException("invalid directory entry 5");
de.compressedData = data[i .. i + de.compressedSize];
debug(print) arrayPrint(de.compressedData);
switch (de.compressionMethod)
{
case 0:
de.expandedData = de.compressedData;
return de.expandedData;
case 8:
// -15 is a magic value used to decompress zip files.
// It has the effect of not requiring the 2 byte header
// and 4 byte trailer.
de.expandedData = cast(ubyte[])std.zlib.uncompress(cast(void[])de.compressedData, de.expandedSize, -15);
return de.expandedData;
default:
throw new ZipException("unsupported compression method");
}
}
/* ============ Utility =================== */
ushort getUshort(int i)
{
version (LittleEndian)
{
return *cast(ushort *)&data[i];
}
else
{
ubyte b0 = data[i];
ubyte b1 = data[i + 1];
return (b1 << 8) | b0;
}
}
uint getUint(int i)
{
version (LittleEndian)
{
return *cast(uint *)&data[i];
}
else
{
return bswap(*cast(uint *)&data[i]);
}
}
void putUshort(int i, ushort us)
{
version (LittleEndian)
{
*cast(ushort *)&data[i] = us;
}
else
{
data[i] = cast(ubyte)us;
data[i + 1] = cast(ubyte)(us >> 8);
}
}
void putUint(int i, uint ui)
{
version (BigEndian)
{
ui = bswap(ui);
}
*cast(uint *)&data[i] = ui;
}
}
debug(print)
{
void arrayPrint(ubyte[] array)
{
printf("array %p,%d\n", cast(void*)array, array.length);
for (int i = 0; i < array.length; i++)
{
printf("%02x ", array[i]);
if (((i + 1) & 15) == 0)
printf("\n");
}
printf("\n");
}
}
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