forked from 0ad/0ad
janwas
5081b38c43
file_cache: use new remove_least_valuable interface zip: add dox This was SVN commit r3514.
617 lines
17 KiB
C++
Executable File
617 lines
17 KiB
C++
Executable File
// archive backend for Zip files
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//
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// Copyright (c) 2003-2006 Jan Wassenberg
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//
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// This program is free software; you can redistribute it and/or
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// modify it under the terms of the GNU General Public License as
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// published by the Free Software Foundation; either version 2 of the
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// License, or (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful, but
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// WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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// General Public License for more details.
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//
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// Contact info:
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// Jan.Wassenberg@stud.uni-karlsruhe.de
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// http://www.stud.uni-karlsruhe.de/~urkt/
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#include "precompiled.h"
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#include <time.h>
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#include "lib.h"
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#include "byte_order.h"
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#include "allocators.h"
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#include "timer.h"
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#include "self_test.h"
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#include "file_internal.h"
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// Zip file data structures and signatures
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static const u32 cdfh_magic = FOURCC_LE('P','K','\1','\2');
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static const u32 lfh_magic = FOURCC_LE('P','K','\3','\4');
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static const u32 ecdr_magic = FOURCC_LE('P','K','\5','\6');
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enum ZipCompressionMethod
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{
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ZIP_CM_NONE = 0,
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ZIP_CM_DEFLATE = 8
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};
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#pragma pack(push, 1)
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struct LFH
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{
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u32 magic;
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u16 x1; // version needed
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u16 flags;
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u16 method;
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u32 fat_mtime; // last modified time (DOS FAT format)
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u32 crc;
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u32 csize;
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u32 ucsize;
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u16 fn_len;
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u16 e_len;
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};
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const size_t LFH_SIZE = sizeof(LFH);
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cassert(LFH_SIZE == 30);
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struct CDFH
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{
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u32 magic;
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u32 x1; // versions
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u16 flags;
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u16 method;
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u32 fat_mtime; // last modified time (DOS FAT format)
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u32 crc;
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u32 csize;
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u32 ucsize;
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u16 fn_len;
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u16 e_len;
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u16 c_len;
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u32 x2; // spanning
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u32 x3; // attributes
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u32 lfh_ofs;
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};
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const size_t CDFH_SIZE = sizeof(CDFH);
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cassert(CDFH_SIZE == 46);
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struct ECDR
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{
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u32 magic;
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u8 x1[6]; // multiple-disk support
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u16 cd_entries;
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u32 cd_size;
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u32 cd_ofs;
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u16 comment_len;
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};
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const size_t ECDR_SIZE = sizeof(ECDR);
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cassert(ECDR_SIZE == 22);
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#pragma pack(pop)
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//
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// timestamp conversion: DOS FAT <-> Unix time_t
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//
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static time_t time_t_from_FAT(u32 fat_timedate)
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{
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const uint fat_time = bits(fat_timedate, 0, 15);
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const uint fat_date = bits(fat_timedate, 16, 31);
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struct tm t; // struct tm format:
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t.tm_sec = bits(fat_time, 0,4) * 2; // [0,59]
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t.tm_min = bits(fat_time, 5,10); // [0,59]
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t.tm_hour = bits(fat_time, 11,15); // [0,23]
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t.tm_mday = bits(fat_date, 0,4); // [1,31]
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t.tm_mon = bits(fat_date, 5,8) - 1; // [0,11]
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t.tm_year = bits(fat_date, 9,15) + 80; // since 1900
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t.tm_isdst = -1; // unknown - let libc determine
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// otherwise: totally bogus, and at the limit of 32-bit time_t
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debug_assert(t.tm_year < 138);
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time_t ret = mktime(&t);
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if(ret == (time_t)-1)
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debug_warn("mktime failed");
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return ret;
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}
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static u32 FAT_from_time_t(time_t time)
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{
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// (values are adjusted for DST)
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struct tm* t = localtime(&time);
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u16 fat_time = 0;
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fat_time |= (t->tm_sec/2); // 5
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fat_time |= (t->tm_min) << 5; // 6
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fat_time |= (t->tm_hour) << 11; // 5
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u16 fat_date = 0;
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fat_date |= (t->tm_mday); // 5
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fat_date |= (t->tm_mon+1) << 5; // 4
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fat_date |= (t->tm_year-80) << 9; // 7
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u32 fat_timedate = u32_from_u16(fat_date, fat_time);
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return fat_timedate;
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}
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//-----------------------------------------------------------------------------
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// scan for and return a pointer to a Zip record, or 0 if not found.
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// <start> is the expected position; we scan from there until EOF for
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// the given ID (fourcc). <record_size> includes ID field) bytes must
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// remain before EOF - this makes sure the record is completely in the file.
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// used by z_find_ecdr and z_extract_cdfh.
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static const u8* za_find_id(const u8* buf, size_t size, const void* start, u32 magic, size_t record_size)
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{
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ssize_t bytes_left = (ssize_t)((buf+size) - (u8*)start - record_size);
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const u8* p = (const u8*)start;
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// don't increment function argument directly,
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// so we can warn the user if we had to scan.
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while(bytes_left-- >= 0)
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{
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// found it
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if(*(u32*)p == magic)
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{
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#ifndef NDEBUG
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if(p != start)
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debug_warn("archive damaged, but still found next record.");
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#endif
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return p;
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}
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p++;
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// be careful not to increment before comparison;
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// magic may already be found at <start>.
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}
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// passed EOF, didn't find it.
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// note: do not warn - this happens in the initial ECDR search at
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// EOF if the archive contains a comment field.
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return 0;
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}
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// search for ECDR in the last <max_scan_amount> bytes of the file.
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// if found, fill <dst_ecdr> with an (unprocessed) copy of the record and
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// return ERR_OK, otherwise IO error or ERR_CORRUPTED.
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static LibError za_find_ecdr_impl(File* f, size_t max_scan_amount, ECDR* dst_ecdr)
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{
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// don't scan more than the entire file
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const size_t file_size = f->fc.size;
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const size_t scan_amount = MIN(max_scan_amount, file_size);
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// read desired chunk of file into memory
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const off_t ofs = (off_t)(file_size - scan_amount);
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FileIOBuf buf = FILE_BUF_ALLOC;
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ssize_t bytes_read = file_io(f, ofs, scan_amount, &buf);
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RETURN_ERR(bytes_read);
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debug_assert(bytes_read == (ssize_t)scan_amount);
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// look for ECDR in buffer
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LibError ret = ERR_CORRUPTED;
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const u8* start = (const u8*)buf;
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const ECDR* ecdr = (const ECDR*)za_find_id(start, bytes_read, start, ecdr_magic, ECDR_SIZE);
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if(ecdr)
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{
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*dst_ecdr = *ecdr;
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ret = ERR_OK;
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}
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file_buf_free(buf);
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return ret;
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}
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// read the current CDFH. if a valid file, return its filename and ZLoc.
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// return -1 on error (output params invalid), or 0 on success.
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// called by za_enum_files, which passes the output to lookup.
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static LibError za_extract_cdfh(const CDFH* cdfh,
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ArchiveEntry* ent, size_t& ofs_to_next_cdfh)
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{
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// extract fields from CDFH
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const u16 zip_method = read_le16(&cdfh->method);
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const u32 fat_mtime = read_le32(&cdfh->fat_mtime);
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const u32 csize = read_le32(&cdfh->csize);
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const u32 ucsize = read_le32(&cdfh->ucsize);
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const u16 fn_len = read_le16(&cdfh->fn_len);
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const u16 e_len = read_le16(&cdfh->e_len);
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const u16 c_len = read_le16(&cdfh->c_len);
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const u32 lfh_ofs = read_le32(&cdfh->lfh_ofs);
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const char* fn_tmp = (const char*)cdfh+CDFH_SIZE; // not 0-terminated!
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CompressionMethod method;
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switch(zip_method)
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{
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case ZIP_CM_NONE: method = CM_NONE; break;
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case ZIP_CM_DEFLATE: method = CM_DEFLATE; break;
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default: WARN_RETURN(ERR_UNKNOWN_CMETHOD);
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}
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// .. it's a directory entry (we only want files)
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if(!csize && !ucsize)
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return ERR_NOT_FILE; // don't warn - we just ignore these
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// null-terminate fn (must be done before file_make_unique_fn_copy)
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char fn[PATH_MAX];
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memcpy2(fn, fn_tmp, fn_len);
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fn[fn_len] = '\0';
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// write out entry data
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ent->atom_fn = file_make_unique_fn_copy(fn);
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ent->ofs = lfh_ofs;
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ent->csize = csize;
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ent->ucsize = (off_t)ucsize;
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ent->mtime = time_t_from_FAT(fat_mtime);
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ent->method = method;
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ent->flags = ZIP_LFH_FIXUP_NEEDED;
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// offset to where next CDFH should be (caller will scan for it)
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ofs_to_next_cdfh = CDFH_SIZE + fn_len + e_len + c_len;
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return ERR_OK;
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}
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// analyse an opened Zip file; call back into archive.cpp to
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// populate the Archive object with a list of the files it contains.
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// returns ERR_OK on success, ERR_UNKNOWN_FORMAT if not a Zip file
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// (see below) or another negative LibError code.
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//
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// fairly slow - must read Central Directory from disk
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// (size ~= 60 bytes*num_files); observed time ~= 80ms.
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LibError zip_populate_archive(File* f, Archive* a)
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{
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LibError ret;
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// sanity check: file size must be > header size.
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// (this speeds up determining if the file is a Zip file at all)
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const size_t file_size = f->fc.size;
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if(file_size < LFH_SIZE+CDFH_SIZE+ECDR_SIZE)
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goto completely_bogus;
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{
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// find "End of Central Dir Record" in file.
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ECDR ecdr;
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// .. early out: check expected case (ECDR at EOF; no file comment)
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ret = za_find_ecdr_impl(f, ECDR_SIZE, &ecdr);
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// .. second try: scan last 66000 bytes of file
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// (the Zip archive comment field - up to 64k - may follow ECDR).
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// if the zip file is < 66000 bytes, scan the whole file.
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if(ret < 0)
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{
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ret = za_find_ecdr_impl(f, 66000u, &ecdr);
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// still failed - not a Zip file
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if(ret < 0)
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goto completely_bogus;
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}
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const uint cd_entries = (uint)read_le16(&ecdr.cd_entries);
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const off_t cd_ofs = (off_t)read_le32(&ecdr.cd_ofs);
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const size_t cd_size = (size_t)read_le32(&ecdr.cd_size);
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// call back with number of entries in archives (an upper bound
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// for valid files; we're not interested in the directory entries).
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// we'd have to scan through the central dir to count them out; we'll
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// just skip them and waste a bit of preallocated memory.
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RETURN_ERR(archive_allocate_entries(a, cd_entries));
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// iterate through Central Directory
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FileIOBuf buf = FILE_BUF_ALLOC;
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RETURN_ERR(file_io(f, cd_ofs, cd_size, &buf));
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ret = ERR_OK;
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const CDFH* cdfh = (const CDFH*)buf;
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size_t ofs_to_next_cdfh = 0;
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for(uint i = 0; i < cd_entries; i++)
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{
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// scan for next CDFH (at or beyond current cdfh position)
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cdfh = (const CDFH*)((u8*)cdfh + ofs_to_next_cdfh);
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cdfh = (CDFH*)za_find_id((const u8*)buf, cd_size, (const u8*)cdfh, cdfh_magic, CDFH_SIZE);
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if(!cdfh) // no (further) CDFH found:
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{
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ret = ERR_CORRUPTED;
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break;
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}
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ArchiveEntry ent;
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if(za_extract_cdfh(cdfh, &ent, ofs_to_next_cdfh) == ERR_OK)
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{
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ret = archive_add_file(a, &ent);
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if(ret != ERR_OK)
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break;
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}
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}
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file_buf_free(buf);
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return ret;
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}
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// this file is definitely not a valid Zip file.
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// note: the VFS blindly opens files when mounting; it needs to open
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// all archives, but doesn't know their extension (e.g. ".pk3").
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// therefore, do not warn user.
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completely_bogus:
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return ERR_UNKNOWN_FORMAT;
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}
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//-----------------------------------------------------------------------------
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// this code grabs an LFH struct from file block(s) that are
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// passed to the callback. usually, one call copies the whole thing,
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// but the LFH may straddle a block boundary.
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//
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// rationale: this allows using temp buffers for zip_fixup_lfh,
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// which avoids involving the file buffer manager and thus
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// unclutters the trace and cache contents.
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struct LFH_Copier
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{
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u8* lfh_dst;
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size_t lfh_bytes_remaining;
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};
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static LibError lfh_copier_cb(uintptr_t ctx, const void* block, size_t size, size_t* bytes_processed)
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{
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LFH_Copier* p = (LFH_Copier*)ctx;
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debug_assert(size <= p->lfh_bytes_remaining);
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memcpy2(p->lfh_dst, block, size);
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p->lfh_dst += size;
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p->lfh_bytes_remaining -= size;
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*bytes_processed = size;
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return INFO_CB_CONTINUE;
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}
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// ensures <ent.ofs> points to the actual file contents; it is initially
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// the offset of the LFH. we cannot use CDFH filename and extra field
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// lengths to skip past LFH since that may not mirror CDFH (has happened).
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//
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// this is called at file-open time instead of while mounting to
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// reduce seeks: since reading the file will typically follow, the
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// block cache entirely absorbs the IO cost.
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void zip_fixup_lfh(File* f, ArchiveEntry* ent)
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{
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// already fixed up - done.
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if(!(ent->flags & ZIP_LFH_FIXUP_NEEDED))
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return;
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// performance note: this ends up reading one file block, which is
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// only in the block cache if the file starts in the same block as a
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// previously read file (i.e. both are small).
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LFH lfh;
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LFH_Copier params = { (u8*)&lfh, sizeof(LFH) };
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ssize_t ret = file_io(f, ent->ofs, LFH_SIZE, FILE_BUF_TEMP, lfh_copier_cb, (uintptr_t)¶ms);
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debug_assert(ret == sizeof(LFH));
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debug_assert(lfh.magic == lfh_magic);
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const size_t fn_len = read_le16(&lfh.fn_len);
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const size_t e_len = read_le16(&lfh.e_len);
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ent->ofs += (off_t)(LFH_SIZE + fn_len + e_len);
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// LFH doesn't have a comment field!
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ent->flags &= ~ZIP_LFH_FIXUP_NEEDED;
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}
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//-----------------------------------------------------------------------------
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// archive builder backend
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//-----------------------------------------------------------------------------
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// rationale: don't support partial adding, i.e. updating archive with
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// only one file. this would require overwriting parts of the Zip archive,
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// which is annoying and slow. also, archives are usually built in
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// seek-optimal order, which would break if we start inserting files.
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// while testing, loose files can be used, so there's no loss.
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// we don't want to expose ZipArchive to callers,
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// (would require defining File, Pool and CDFH)
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// so allocate the storage here and return opaque pointer.
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struct ZipArchive
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{
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File f;
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off_t cur_file_size;
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Pool cdfhs;
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uint cd_entries;
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CDFH* prev_cdfh;
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};
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static SingleAllocator<ZipArchive> za_mgr;
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// create a new Zip archive and return a pointer for use in subsequent
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// zip_archive_add_file calls. previous archive file is overwritten.
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LibError zip_archive_create(const char* zip_filename, ZipArchive** pza)
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{
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// local za_copy simplifies things - if something fails, no cleanup is
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// needed. upon success, we copy into the newly allocated real za.
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ZipArchive za_copy;
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za_copy.cur_file_size = 0;
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za_copy.cd_entries = 0;
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za_copy.prev_cdfh = 0;
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RETURN_ERR(file_open(zip_filename, FILE_WRITE|FILE_NO_AIO, &za_copy.f));
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RETURN_ERR(pool_create(&za_copy.cdfhs, 10*MiB, 0));
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ZipArchive* za = (ZipArchive*)za_mgr.alloc();
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if(!za)
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WARN_RETURN(ERR_NO_MEM);
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*za = za_copy;
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*pza = za;
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return ERR_OK;
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}
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static inline u32 u32_from_size_t(size_t x)
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{
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debug_assert(x <= 0xFFFFFFFF);
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return (u32)(x & 0xFFFFFFFF);
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}
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static inline u16 u16_from_size_t(size_t x)
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{
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debug_assert(x <= 0xFFFF);
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return (u16)(x & 0xFFFF);
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}
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// add a file (described by ArchiveEntry) to the archive. file_contents
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// is the actual file data; its compression method is given in ae->method and
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// can be CM_NONE.
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// IO cost: writes out <file_contents> to disk (we don't currently attempt
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// any sort of write-buffering).
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LibError zip_archive_add_file(ZipArchive* za, const ArchiveEntry* ae, void* file_contents)
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{
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const char* fn = ae->atom_fn;
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const size_t fn_len = strlen(fn);
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const size_t ucsize = ae->ucsize;
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const u32 fat_mtime = FAT_from_time_t(ae->mtime);
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const size_t csize = ae->csize;
|
|
const u32 crc32 = ae->crc32;
|
|
u16 zip_method;
|
|
switch(ae->method)
|
|
{
|
|
case CM_NONE: zip_method = ZIP_CM_NONE; break;
|
|
case CM_DEFLATE: zip_method = ZIP_CM_DEFLATE; break;
|
|
default: WARN_RETURN(ERR_UNKNOWN_CMETHOD);
|
|
}
|
|
|
|
const off_t lfh_ofs = za->cur_file_size;
|
|
|
|
// write (LFH, filename, file contents) to archive
|
|
const LFH lfh =
|
|
{
|
|
to_le32(lfh_magic),
|
|
to_le16(0), // x1
|
|
to_le16(0), // flags
|
|
to_le16(zip_method),
|
|
to_le32(fat_mtime),
|
|
to_le32(crc32),
|
|
to_le32(u32_from_size_t(csize)),
|
|
to_le32(u32_from_size_t(ucsize)),
|
|
to_le16(u16_from_size_t(fn_len)),
|
|
to_le16(0) // e_len
|
|
};
|
|
FileIOBuf buf;
|
|
buf = (FileIOBuf)&lfh;
|
|
file_io(&za->f, lfh_ofs, LFH_SIZE, &buf);
|
|
buf = (FileIOBuf)fn;
|
|
file_io(&za->f, lfh_ofs+LFH_SIZE, fn_len, &buf);
|
|
buf = (FileIOBuf)file_contents;
|
|
file_io(&za->f, lfh_ofs+(off_t)(LFH_SIZE+fn_len), csize, &buf);
|
|
za->cur_file_size += (off_t)(LFH_SIZE+fn_len+csize);
|
|
|
|
// append a CDFH to the central dir (in memory)
|
|
// .. note: pool_alloc may round size up for padding purposes.
|
|
const size_t prev_pos = za->cdfhs.da.pos;
|
|
CDFH* cdfh = (CDFH*)pool_alloc(&za->cdfhs, CDFH_SIZE+fn_len);
|
|
if(!cdfh)
|
|
return ERR_NO_MEM;
|
|
const size_t slack = za->cdfhs.da.pos-prev_pos - (CDFH_SIZE+fn_len);
|
|
// .. store header fields
|
|
cdfh->magic = to_le32(cdfh_magic);
|
|
cdfh->x1 = to_le32(0);
|
|
cdfh->flags = to_le16(0);
|
|
cdfh->method = to_le16(zip_method);
|
|
cdfh->fat_mtime = to_le32(fat_mtime);
|
|
cdfh->crc = to_le32(crc32);
|
|
cdfh->csize = to_le32(u32_from_size_t(csize));
|
|
cdfh->ucsize = to_le32(u32_from_size_t(ucsize));
|
|
cdfh->fn_len = to_le16(u16_from_size_t(fn_len));
|
|
cdfh->e_len = to_le16(0);
|
|
cdfh->c_len = to_le16(u16_from_size_t(slack));
|
|
cdfh->x2 = to_le32(0);
|
|
cdfh->x3 = to_le32(0);
|
|
cdfh->lfh_ofs = to_le32(lfh_ofs);
|
|
memcpy2((char*)cdfh+CDFH_SIZE, fn, fn_len);
|
|
|
|
za->cd_entries++;
|
|
|
|
return ERR_OK;
|
|
}
|
|
|
|
|
|
// write out the archive to disk; only hereafter is it valid.
|
|
// frees the ZipArchive instance.
|
|
// IO cost: writes out Central Directory to disk (about 70 bytes per file).
|
|
LibError zip_archive_finish(ZipArchive* za)
|
|
{
|
|
const size_t cd_size = za->cdfhs.da.pos;
|
|
|
|
// append an ECDR to the CDFH list (this allows us to
|
|
// write out both to the archive file in one burst)
|
|
ECDR* ecdr = (ECDR*)pool_alloc(&za->cdfhs, ECDR_SIZE);
|
|
if(!ecdr)
|
|
return ERR_NO_MEM;
|
|
ecdr->magic = ecdr_magic;
|
|
memset(ecdr->x1, 0, sizeof(ecdr->x1));
|
|
ecdr->cd_entries = za->cd_entries;
|
|
ecdr->cd_size = (u32)cd_size;
|
|
ecdr->cd_ofs = za->cur_file_size;
|
|
ecdr->comment_len = 0;
|
|
|
|
FileIOBuf buf = za->cdfhs.da.base;
|
|
file_io(&za->f, za->cur_file_size, cd_size+ECDR_SIZE, &buf);
|
|
|
|
(void)file_close(&za->f);
|
|
(void)pool_destroy(&za->cdfhs);
|
|
#include "nommgr.h"
|
|
za_mgr.free(za);
|
|
#include "mmgr.h"
|
|
return ERR_OK;
|
|
}
|
|
|
|
|
|
//-----------------------------------------------------------------------------
|
|
// built-in self test
|
|
//-----------------------------------------------------------------------------
|
|
|
|
#if SELF_TEST_ENABLED
|
|
namespace test {
|
|
|
|
static void test_fat_timedate_conversion()
|
|
{
|
|
// note: FAT time stores second/2, which means converting may
|
|
// end up off by 1 second.
|
|
|
|
time_t t, converted_t;
|
|
long dt;
|
|
|
|
t = time(0);
|
|
converted_t = time_t_from_FAT(FAT_from_time_t(t));
|
|
dt = converted_t-t; // disambiguate abs() parameter
|
|
TEST(abs(dt) < 2);
|
|
|
|
t++;
|
|
converted_t = time_t_from_FAT(FAT_from_time_t(t));
|
|
dt = converted_t-t; // disambiguate abs() parameter
|
|
TEST(abs(dt) < 2);
|
|
}
|
|
|
|
static void self_test()
|
|
{
|
|
test_fat_timedate_conversion();
|
|
}
|
|
|
|
SELF_TEST_RUN;
|
|
|
|
} // namespace test
|
|
#endif // #if SELF_TEST_ENABLED
|