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3e70021406
upx/src/p_ps1.cpp
Markus F.X.J. Oberhumer 3e70021406 all: more minor cleanups
2023-11-26 18:30:47 +01:00

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/* p_ps1.cpp --
This file is part of the UPX executable compressor.
Copyright (C) 1996-2023 Markus Franz Xaver Johannes Oberhumer
Copyright (C) 1996-2023 Laszlo Molnar
Copyright (C) 2002-2023 Jens Medoch
All Rights Reserved.
UPX and the UCL library are free software; you can redistribute them
and/or modify them under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of
the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; see the file COPYING.
If not, write to the Free Software Foundation, Inc.,
59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
Markus F.X.J. Oberhumer Laszlo Molnar
<markus@oberhumer.com> <ezerotven+github@gmail.com>
Jens Medoch
<jssg@users.sourceforge.net>
*/
#include "conf.h"
#include "file.h"
#include "filter.h"
#include "packer.h"
#include "p_ps1.h"
#include "linker.h"
static const CLANG_FORMAT_DUMMY_STATEMENT
#include "stub/mipsel.r3000-ps1.h"
#define CD_SEC 2048
#define PS_HDR_SIZE CD_SEC
#define PS_RAM_SIZE ram_size
#define PS_MIN_SIZE (PS_HDR_SIZE * 3)
#define PS_MAX_SIZE ((PS_RAM_SIZE * 95) / 100)
#define PS_STACK_SIZE (PS_RAM_SIZE / 256)
#define SZ_IH_BKUP (10 * sizeof(LE32))
#define HD_CODE_OFS (sizeof(ps1_exe_t) + sz_cbh)
#define K0_BS (0x80000000)
#define K1_BS (0xa0000000)
#define EXE_BS (ih.epc & K0_BS)
#define FIX_PSVR ((K1_BS - EXE_BS) + (PS_HDR_SIZE - HD_CODE_OFS))
// lui / addiu
#define MIPS_HI(a) (((a) >> 16) + (((a) &0x8000) >> 15))
#define MIPS_LO(a) ((a) &0xffff)
#define MIPS_PC16(a) ((a) >> 2)
#define MIPS_PC26(a) (((a) &0x0fffffff) >> 2)
/*************************************************************************
// ps1 exe looks like this:
// 1. <header> 2048 bytes
// 2. <body> plain binary
//
// header: contains the ps1_exe_t structure 188 bytes at offset zero
// rest is filled with zeros to reach the required
// cd mode 2 data sector size of 2048 bytes
// body: contains the binary data / code of the executable
// reqiures: executable code must be aligned to 4
// must be aligned to 2048 to run from a CD
// optional: not aligned to 2048 (for console run only)
**************************************************************************/
PackPs1::PackPs1(InputFile *f)
: super(f), isCon(!opt->ps1_exe.boot_only), is32Bit(!opt->ps1_exe.do_8bit), buildPart2(0),
foundBss(0), sa_cnt(0), overlap(0), sz_lunc(0), sz_lcpr(0), pad_code(0), bss_start(0),
bss_end(0) {
bele = &N_BELE_RTP::le_policy;
COMPILE_TIME_ASSERT(sizeof(ps1_exe_t) == 136)
COMPILE_TIME_ASSERT(sizeof(ps1_exe_hb_t) == 44)
COMPILE_TIME_ASSERT(sizeof(ps1_exe_chb_t) == 5)
COMPILE_TIME_ASSERT_ALIGNED1(ps1_exe_t)
COMPILE_TIME_ASSERT_ALIGNED1(ps1_exe_hb_t)
COMPILE_TIME_ASSERT_ALIGNED1(ps1_exe_chb_t)
COMPILE_TIME_ASSERT(PS_HDR_SIZE > sizeof(ps1_exe_t))
COMPILE_TIME_ASSERT(SZ_IH_BKUP == 40)
fdata_size = file_size - PS_HDR_SIZE;
ram_size = !opt->ps1_exe.do_8mib ? 0x200000 : 0x800000;
}
const int *PackPs1::getCompressionMethods(int method, int level) const {
if (is32Bit)
return Packer::getDefaultCompressionMethods_le32(method, level);
else
return Packer::getDefaultCompressionMethods_8(method, level);
}
const int *PackPs1::getFilters() const { return nullptr; }
Linker *PackPs1::newLinker() const { return new ElfLinkerMipsLE; }
/*************************************************************************
// util
// readFileHeader() reads ih and checks for illegal values
// checkFileHeader() checks ih for legal but unsupported values
**************************************************************************/
int PackPs1::readFileHeader() {
fi->seek(0, SEEK_SET);
fi->readx(&ih, sizeof(ih));
if (memcmp(&ih.id[0], "PS-X EXE", 8) != 0 && memcmp(&ih.id[0], "EXE X-SP", 8) != 0)
return 0;
if (ih.text != 0 || ih.data != 0)
return 0;
return UPX_F_PS1_EXE;
}
bool PackPs1::readBkupHeader() {
fi->seek(sizeof(ps1_exe_t) + 8, SEEK_SET);
fi->readx(&bh, sizeof(bh));
if (bh.ih_csum != upx_adler32(&bh, SZ_IH_BKUP)) {
byte buf[sizeof(bh)];
fi->seek(sizeof(ps1_exe_t), SEEK_SET);
fi->readx(buf, sizeof(bh));
if (!getBkupHeader(buf, (byte *) &bh))
return false;
}
return true;
}
#define INIT_BH_BKUP(p, l) \
do { \
(p)->id = '1'; \
(p)->len = l; \
} while (0)
#define ADLER16(a) (((a) >> 16) ^ ((a) &0xffff))
void PackPs1::putBkupHeader(const byte *src, byte *dst, unsigned *len) {
unsigned sz_cbh = MemBuffer::getSizeForCompression(SZ_IH_BKUP);
if (src && dst) {
ByteArray(cpr_bh, sz_cbh);
memset(cpr_bh, 0, sizeof(bh));
ps1_exe_chb_t *p = (ps1_exe_chb_t *) cpr_bh;
int r = upx_compress(src, SZ_IH_BKUP, &p->ih_bkup, &sz_cbh, nullptr, M_NRV2E_8, 10, nullptr,
nullptr);
if (r != UPX_E_OK || sz_cbh >= SZ_IH_BKUP)
throwInternalError("header compression failed");
INIT_BH_BKUP(p, sz_cbh);
*len = ALIGN_UP(sz_cbh + (unsigned) sizeof(ps1_exe_chb_t) - 1, 4u);
p->ih_csum = ADLER16(upx_adler32(&ih.epc, SZ_IH_BKUP));
memcpy(dst, cpr_bh, SZ_IH_BKUP);
} else
throwInternalError("header compression failed");
}
#define ADLER16_HI(a, b) ((((a) &0xffff) ^ (b)) << 16)
#define ADLER16_LO(a, b) (((a) >> 16) ^ (b))
#define RE_ADLER16(a, b) (ADLER16_HI(a, b) | ADLER16_LO(a, b))
bool PackPs1::getBkupHeader(byte *p, byte *dst) {
ps1_exe_chb_t *src = (ps1_exe_chb_t *) p;
if (src && (src->id == '1' && src->len < SZ_IH_BKUP) && dst) {
ByteArray(unc_bh, MemBuffer::getSizeForDecompression(SZ_IH_BKUP));
unsigned sz_bh = SZ_IH_BKUP;
int r = upx_decompress((const byte *) &src->ih_bkup, src->len, unc_bh, &sz_bh, M_NRV2E_8,
nullptr);
if (r == UPX_E_OUT_OF_MEMORY)
throwOutOfMemoryException();
if (r != UPX_E_OK || sz_bh != SZ_IH_BKUP)
throwInternalError("header decompression failed");
unsigned ad = upx_adler32(unc_bh, SZ_IH_BKUP);
unsigned ch = src->ih_csum;
if (ad != RE_ADLER16(ad, ch))
throwInternalError("backup header damaged");
memcpy(dst, unc_bh, SZ_IH_BKUP);
} else
return false;
return true;
}
bool PackPs1::checkFileHeader() {
if (fdata_size != ih.tx_len || (ih.tx_len & 3)) {
if (!opt->force)
throwCantPack("file size entry damaged (try --force)");
else {
opt->info_mode += !opt->info_mode ? 1 : 0;
infoWarning("fixing damaged header, keeping backup file");
opt->backup = 1;
ih.tx_len = fdata_size;
}
}
if (!opt->force && (ih.da_ptr != 0 || ih.da_len != 0 || ih.bs_ptr != 0 || ih.bs_len != 0)) {
infoWarning("unsupported header field entry");
return false;
}
if (ih.is_ptr < (EXE_BS | (PS_RAM_SIZE - PS_STACK_SIZE))) {
if (!opt->force)
return false;
else
infoWarning("%s: stack pointer offset low", fi->getName());
}
return true;
}
/*************************************************************************
//
**************************************************************************/
tribool PackPs1::canPack() {
byte buf[PS_HDR_SIZE - sizeof(ps1_exe_t)];
if (!readFileHeader())
return false;
fi->readx(buf, sizeof(buf));
checkAlreadyPacked(buf, sizeof(buf));
for (size_t i = 0; i < sizeof(buf); i++)
if (buf[i] != 0) {
if (!opt->force)
throwCantPack("unknown data in header (try --force)");
else {
opt->info_mode += !opt->info_mode ? 1 : 0;
infoWarning("clearing header, keeping backup file");
opt->backup = 1;
break;
}
}
if (!checkFileHeader())
throwCantPack("unsupported header flags (try --force)");
if (!opt->force && file_size < PS_MIN_SIZE)
throwCantPack("file is too small (try --force)");
if (!opt->force && file_size_u > PS_MAX_SIZE)
throwCantPack("file is too big (try --force)");
return true;
}
/*************************************************************************
//
**************************************************************************/
void PackPs1::buildLoader(const Filter *) {
const char *method = nullptr;
if (ph.method == M_NRV2B_8)
method = isCon ? "nrv2b.small,8bit.sub,nrv.done" : "nrv2b.8bit,nrv.done";
else if (ph.method == M_NRV2D_8)
method = isCon ? "nrv2d.small,8bit.sub,nrv.done" : "nrv2d.8bit,nrv.done";
else if (ph.method == M_NRV2E_8)
method = isCon ? "nrv2e.small,8bit.sub,nrv.done" : "nrv2e.8bit,nrv.done";
else if (ph.method == M_NRV2B_LE32)
method = isCon ? "nrv2b.small,32bit.sub,nrv.done" : "nrv2b.32bit,nrv.done";
else if (ph.method == M_NRV2D_LE32)
method = isCon ? "nrv2d.small,32bit.sub,nrv.done" : "nrv2d.32bit,nrv.done";
else if (ph.method == M_NRV2E_LE32)
method = isCon ? "nrv2e.small,32bit.sub,nrv.done" : "nrv2e.32bit,nrv.done";
else if (M_IS_LZMA(ph.method))
method = "nrv2b.small,8bit.sub,nrv.done,lzma.prep";
else
throwInternalError("unknown compression method");
unsigned sa_tmp = sa_cnt;
if (ph.overlap_overhead > sa_cnt) {
if (!opt->force) {
infoWarning("not in-place decompressible");
throwCantPack("packed data overlap (try --force)");
} else
sa_tmp += overlap = ALIGN_UP((ph.overlap_overhead - sa_tmp), 4u);
}
if (isCon || M_IS_LZMA(ph.method))
foundBss = findBssSection();
if (M_IS_LZMA(ph.method) && !buildPart2) {
initLoader(stub_mipsel_r3000_ps1, sizeof(stub_mipsel_r3000_ps1));
addLoader("decompressor.start", isCon ? "LZMA_DEC20" : "LZMA_DEC10", "lzma.init", nullptr);
addLoader(sa_tmp > (0x10000 << 2) ? "memset.long" : "memset.short",
!foundBss ? "con.exit" : "bss.exit", nullptr);
} else {
if (M_IS_LZMA(ph.method) && buildPart2) {
sz_lcpr = MemBuffer::getSizeForCompression(sz_lunc);
byte *cprLoader = New(byte, sz_lcpr); // FIXME: does this leak? => should put into class
int r = upx_compress(getLoader(), sz_lunc, cprLoader, &sz_lcpr, nullptr, M_NRV2B_8, 10,
nullptr, nullptr);
if (r != UPX_E_OK || sz_lcpr >= sz_lunc)
throwInternalError("loader compression failed");
initLoader(stub_mipsel_r3000_ps1, sizeof(stub_mipsel_r3000_ps1),
isCon || !M_IS_LZMA(ph.method) ? 0 : 1);
linker->addSection("lzma.exec", cprLoader, sz_lcpr, 0);
} else
initLoader(stub_mipsel_r3000_ps1, sizeof(stub_mipsel_r3000_ps1));
pad_code = ALIGN_GAP((ph.c_len + (isCon ? sz_lcpr : 0)), 4u);
assert(pad_code < 4);
static const byte pad_buffer[4] = {0, 0, 0, 0};
linker->addSection("pad.code", pad_buffer, pad_code, 0);
if (isCon) {
if (M_IS_LZMA(ph.method))
addLoader(!foundBss ? "con.start" : "bss.con.start", method,
ih.tx_ptr & 0xffff ? "dec.ptr" : "dec.ptr.hi", "con.entry", "pad.code",
"lzma.exec", nullptr);
else
addLoader(!foundBss ? "con.start" : "bss.con.start", "con.mcpy",
ph.c_len & 3 ? "con.padcd" : "",
ih.tx_ptr & 0xffff ? "dec.ptr" : "dec.ptr.hi", "con.entry", method,
sa_cnt ? sa_cnt > (0x10000 << 2) ? "memset.long" : "memset.short" : "",
!foundBss ? "con.exit" : "bss.exit", "pad.code", nullptr);
} else {
if (M_IS_LZMA(ph.method))
addLoader(!foundBss ? "cdb.start.lzma" : "bss.cdb.start.lzma", "pad.code",
!foundBss ? "cdb.entry.lzma" : "bss.cdb.entry.lzma", method,
"cdb.lzma.cpr", ih.tx_ptr & 0xffff ? "dec.ptr" : "dec.ptr.hi",
"lzma.exec", nullptr);
else {
assert(foundBss != true);
addLoader("cdb.start", "pad.code", "cdb.entry",
ih.tx_ptr & 0xffff ? "cdb.dec.ptr" : "cdb.dec.ptr.hi", method,
sa_cnt ? sa_cnt > (0x10000 << 2) ? "memset.long" : "memset.short" : "",
"cdb.exit", nullptr);
}
}
addLoader("UPX1HEAD", "IDENTSTR", nullptr);
}
}
#define OPTYPE(x) (((x) >> 13) & 0x7)
#define OPCODE(x) (((x) >> 10) & 0x7)
#define REG1(x) (((x) >> 5) & 0x1f)
#define REG2(x) ((x) &0x1f)
#define MIPS_IMM(a, b) ((((a) - (((b) &0x8000) >> 15)) << 16) | (b))
// Type
#define REGIMM 1
#define STORE 5
// Op
#define LUI 7
#define ADDIU 1
#define SW 3
#define IS_LUI(a) ((OPTYPE(a) == REGIMM && OPCODE(a) == LUI))
#define IS_ADDIU(a) ((OPTYPE(a) == REGIMM && OPCODE(a) == ADDIU))
#define IS_SW_ZERO(a) ((OPTYPE(a) == STORE && OPCODE(a) == SW) && REG2(a) == 0)
#define BSS_CHK_LIMIT (18)
bool PackPs1::findBssSection() {
byte reg;
const LE32 *const p1 = ACC_CCAST(const LE32 *, ibuf + (ih.epc - ih.tx_ptr));
if ((ih.epc - ih.tx_ptr + (BSS_CHK_LIMIT * 4)) > fdata_size)
return false;
// check 18 opcodes for sw zero,0(x)
for (signed i = BSS_CHK_LIMIT; i >= 0; i--) {
upx_uint16_t op = p1[i] >> 16;
if (IS_SW_ZERO(op)) {
// found! get reg (x) for bss_start
reg = REG1(op);
for (; i >= 0; i--) {
const bss_nfo *const p = ACC_CCAST(const bss_nfo *, &p1[i]);
upx_uint16_t op1 = p->op1, op2 = p->op2;
// check for la (x),bss_start
if ((IS_LUI(op1) && REG2(op1) == reg) && (IS_ADDIU(op2) && REG1(op2) == reg)) {
op1 = p->op3, op2 = p->op4;
// check for la (y),bss_end
if (IS_LUI(op1) && IS_ADDIU(op2)) {
// bss section info found!
bss_start = MIPS_IMM(p->hi1, p->lo1);
bss_end = MIPS_IMM(p->hi2, p->lo2);
if (0 < ALIGN_DOWN(bss_end - bss_start, 4u)) {
unsigned wkmem_sz = M_IS_LZMA(ph.method) ? 32768 : 800;
unsigned end_offs = ih.tx_ptr + fdata_size + overlap;
if (bss_end > (end_offs + wkmem_sz))
return isCon || (!isCon && M_IS_LZMA(ph.method));
else
return false;
}
} else
return false;
}
}
}
}
return false;
}
/*************************************************************************
//
**************************************************************************/
void PackPs1::pack(OutputFile *fo) {
ibuf.alloc(fdata_size);
obuf.allocForCompression(fdata_size);
const byte *p_scan = ibuf + fdata_size;
// read file
fi->seek(PS_HDR_SIZE, SEEK_SET);
fi->readx(ibuf, fdata_size);
// scan EOF for 2048 bytes sector alignment
// the removed space will secure in-place decompression
while (!(*--p_scan)) {
if (sa_cnt++ > (0x10000 << 5) || sa_cnt >= fdata_size - 1024)
break;
}
if (sa_cnt > (0x10000 << 2))
sa_cnt = ALIGN_DOWN(sa_cnt, 32u);
else
sa_cnt = ALIGN_DOWN(sa_cnt, 4u);
// prepare packheader
ph.u_len = (fdata_size - sa_cnt);
ph.filter = 0;
Filter ft(ph.level);
// compress (max_match = 65535)
upx_compress_config_t cconf;
cconf.reset();
cconf.conf_ucl.max_match = 65535;
cconf.conf_lzma.max_num_probs = 1846 + (768 << 4); // ushort: ~28 KiB stack
compressWithFilters(&ft, sa_cnt, &cconf);
if (overlap) {
opt->info_mode += !opt->info_mode ? 1 : 0;
infoWarning("overlap - relocating load address (+%d bytes)", overlap);
sa_cnt += overlap;
}
/*
if (bss_start && bss_end && !foundBss)
infoWarning("%s: .bss section too small - use stack", fi->getName());
*/
unsigned lzma_init = 0;
if (M_IS_LZMA(ph.method)) {
sz_lunc = getLoaderSize();
lzma_init = 0u - (sz_lunc - linker->getSymbolOffset("lzma.init"));
defineDecompressorSymbols();
linker->defineSymbol("entry", ih.epc);
linker->defineSymbol("SC", sa_cnt > (0x10000 << 2) ? sa_cnt >> 5 : sa_cnt >> 2);
relocateLoader();
buildPart2 = true;
buildLoader(&ft);
}
memcpy(&oh, &ih, sizeof(ih));
unsigned sz_cbh;
putBkupHeader((const byte *) &ih.epc, (byte *) &bh, &sz_cbh);
if (ih.is_ptr < (EXE_BS | (PS_RAM_SIZE - PS_STACK_SIZE)))
oh.is_ptr = (EXE_BS | (PS_RAM_SIZE - 16));
if (ih.da_ptr != 0 || ih.da_len != 0 || ih.bs_ptr != 0 || ih.bs_len != 0)
oh.da_ptr = oh.da_len = oh.bs_ptr = oh.bs_len = 0;
const int lsize = getLoaderSize();
unsigned filelen = ALIGN_UP(ih.tx_len, 4u);
const unsigned decomp_data_start = ih.tx_ptr;
const unsigned comp_data_start = (decomp_data_start + filelen + overlap) - ph.c_len;
const int h_len = lsize - getLoaderSectionStart("UPX1HEAD");
int d_len = 0;
int e_len = 0;
if (isCon) {
e_len = lsize - h_len;
d_len = e_len - getLoaderSectionStart("con.entry");
} else {
const char *entry_lzma = !foundBss ? "cdb.entry.lzma" : "bss.cdb.entry.lzma";
d_len = (lsize - h_len) -
getLoaderSectionStart(M_IS_LZMA(ph.method) ? entry_lzma : "cdb.entry");
e_len = (lsize - d_len) - h_len;
}
linker->defineSymbol("entry", ih.epc);
linker->defineSymbol("SC", MIPS_LO(sa_cnt > (0x10000 << 2) ? sa_cnt >> 5 : sa_cnt >> 2));
linker->defineSymbol("DECO", decomp_data_start);
linker->defineSymbol("ldr_sz", M_IS_LZMA(ph.method) ? sz_lunc + 16 : (d_len - pad_code));
if (foundBss) {
if (M_IS_LZMA(ph.method))
linker->defineSymbol("wrkmem",
bss_end - 160 - getDecompressorWrkmemSize() - (sz_lunc + 16));
else
linker->defineSymbol("wrkmem", bss_end - 16 - (d_len - pad_code));
}
const unsigned entry = comp_data_start - e_len;
oh.epc = oh.tx_ptr = entry;
oh.tx_len = ph.c_len + e_len;
unsigned pad = 0;
if (!opt->ps1_exe.no_align || !isCon) {
pad = oh.tx_len;
oh.tx_len = ALIGN_UP(oh.tx_len, CD_SEC + 0u);
pad = oh.tx_len - pad;
oh.tx_ptr -= pad;
}
ibuf.clear(0, fdata_size);
byte *paddata = ibuf;
if (M_IS_LZMA(ph.method)) {
linker->defineSymbol("lzma_init_off", lzma_init);
linker->defineSymbol("gb_e", linker->getSymbolOffset("gb8_e"));
} else if (isCon)
linker->defineSymbol("gb_e", linker->getSymbolOffset(is32Bit ? "gb32_e" : "gb8_e"));
if (isCon) {
linker->defineSymbol("PAD", pad_code);
if (M_IS_LZMA(ph.method))
linker->defineSymbol("DCRT", (entry + getLoaderSectionStart("lzma.exec")));
else
linker->defineSymbol("DCRT", (entry + (e_len - d_len)));
} else {
linker->defineSymbol("PSVR", FIX_PSVR);
linker->defineSymbol("CPDO", comp_data_start);
if (M_IS_LZMA(ph.method)) {
unsigned entry_lzma =
getLoaderSectionStart(!foundBss ? "cdb.entry.lzma" : "bss.cdb.entry.lzma");
linker->defineSymbol("lzma_cpr", getLoaderSectionStart("lzma.exec") - entry_lzma);
}
}
relocateLoader();
// linker->dumpSymbols();
MemBuffer loader(lsize);
assert(lsize == getLoaderSize());
memcpy(loader, getLoader(), lsize);
patchPackHeader(loader, lsize);
if (!isCon && M_IS_LZMA(ph.method) && (HD_CODE_OFS + d_len + h_len) > CD_SEC)
throwInternalError("lzma --boot-only loader > 2048");
// ps1_exe_t structure
fo->write(&oh, sizeof(oh));
fo->write(&bh, sz_cbh);
// decompressor
fo->write(loader + e_len, isCon ? h_len : (d_len + h_len));
// header size is 2048 bytes + sector alignment
fo->write(paddata, (pad + PS_HDR_SIZE) - fo->getBytesWritten());
// entry
fo->write(loader, e_len);
// compressed body
fo->write(obuf, ph.c_len);
verifyOverlappingDecompression();
if (!checkFinalCompressionRatio(fo))
throwNotCompressible();
#if 0
printf("%-13s: uncompressed : %8d bytes\n", getName(), (int) ph.u_len);
printf("%-13s: compressed : %8d bytes\n", getName(), (int) ph.c_len);
printf("%-13s: decompressor : %8d bytes\n", getName(), (int) lsize - h_len - pad_code);
printf("%-13s: header comp : %8d bytes\n", getName(), (int) sz_cbh);
printf("%-13s: overlap : %8d bytes\n", getName(), (int) overlap);
printf("%-13s: load address : %08X bytes\n", getName(), (unsigned) oh.tx_ptr);
printf("%-13s: code entry : %08X bytes\n", getName(), (unsigned) oh.epc);
printf("%-13s: bbs start : %08X bytes\n", getName(), (unsigned) bss_start);
printf("%-13s: bbs end : %08X bytes\n", getName(), (unsigned) bss_end);
printf("%-13s: eof in mem IF : %08X bytes\n", getName(), (unsigned) ih.tx_ptr + ih.tx_len);
printf("%-13s: eof in mem OF : %08X bytes\n", getName(), (unsigned) oh.tx_ptr + oh.tx_len);
byte i = 0;
if (isCon) {
if (foundBss)
i = 1;
} else {
i = 2;
if (M_IS_LZMA(ph.method)) {
if (!foundBss)
i = 3;
else
i = 4;
}
}
const char *loader_method[] = {"con/stack", "con/bss", "cdb", "cdb/stack", "cdb/bss"};
char method_name[32 + 1];
set_method_name(method_name, sizeof(method_name), ph.method, ph.level);
printf("%-13s: methods : %s, %s\n", getName(), method_name, loader_method[i]);
#endif
}
/*************************************************************************
//
**************************************************************************/
tribool PackPs1::canUnpack() {
if (!readFileHeader())
return false;
if (!readPackHeader(CD_SEC))
return false;
// check header as set by packer
if (!readBkupHeader() || ph.c_len >= fdata_size)
throwCantUnpack("header damaged");
// generic check
if (!checkFileHeader())
throwCantUnpack("unsupported header flags");
return true;
}
/*************************************************************************
//
**************************************************************************/
void PackPs1::unpack(OutputFile *fo) {
// restore orig exec hdr
memcpy(&oh, &ih, sizeof(ih));
memcpy((void *) &oh.epc, &bh, SZ_IH_BKUP);
// check for removed sector alignment
assert(oh.tx_len >= ph.u_len);
const unsigned pad = oh.tx_len - ph.u_len;
ibuf.alloc(fdata_size > PS_HDR_SIZE ? fdata_size : PS_HDR_SIZE);
obuf.allocForDecompression(ph.u_len, pad);
fi->seek(PS_HDR_SIZE, SEEK_SET);
fi->readx(ibuf, fdata_size);
// decompress
decompress(ibuf + (fdata_size - ph.c_len), obuf);
// write decompressed file
if (fo) {
// write header
fo->write(&oh, sizeof(oh));
// align the ps exe header (mode 2 sector data size)
ibuf.clear();
fo->write(ibuf, PS_HDR_SIZE - fo->getBytesWritten());
// write uncompressed data + pad
obuf.clear(ph.u_len, pad);
fo->write(obuf, ph.u_len + pad);
}
}
/* vim:set ts=4 sw=4 et: */
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