/// Some change has been made to this resource; notify any SipxProcesses that use it.
void SipxResource::modified()
{
UtlSListIterator processResources(mUsedBy);
SipxProcessResource* processResource;
while ((processResource = dynamic_cast<SipxProcessResource*>(processResources())))
{
SipxProcess* process;
if ((process=processResource->getProcess()))
{
process->configurationChange(*this);
}
else
{
/* there is no process for this process resource
* - can happen when a definition is invalid, and has already been logged.
*/
}
}
}
void PackArmPe::pack(OutputFile *fo)
{
// FIXME: we need to think about better support for --exact
if (opt->exact)
throwCantPackExact();
const unsigned objs = ih.objects;
isection = new pe_section_t[objs];
fi->seek(pe_offset+sizeof(ih),SEEK_SET);
fi->readx(isection,sizeof(pe_section_t)*objs);
rvamin = isection[0].vaddr;
infoHeader("[Processing %s, format %s, %d sections]", fn_basename(fi->getName()), getName(), objs);
// check the PE header
// FIXME: add more checks
if (!opt->force && (
(ih.cpu != 0x1c0 && ih.cpu != 0x1c2)
|| (ih.opthdrsize != 0xe0)
|| ((ih.flags & EXECUTABLE) == 0)
|| (ih.subsystem != 9)
|| (ih.entry == 0 /*&& !isdll*/)
|| (ih.ddirsentries != 16)
// || IDSIZE(PEDIR_EXCEPTION) // is this used on arm?
// || IDSIZE(PEDIR_COPYRIGHT)
))
throwCantPack("unexpected value in PE header (try --force)");
if (IDSIZE(PEDIR_SEC))
IDSIZE(PEDIR_SEC) = IDADDR(PEDIR_SEC) = 0;
// throwCantPack("compressing certificate info is not supported");
if (IDSIZE(PEDIR_COMRT))
throwCantPack(".NET files (win32/net) are not yet supported");
if (isdll)
opt->win32_pe.strip_relocs = false;
else if (opt->win32_pe.strip_relocs < 0)
opt->win32_pe.strip_relocs = (ih.imagebase >= 0x10000);
if (opt->win32_pe.strip_relocs)
{
if (ih.imagebase < 0x10000)
throwCantPack("--strip-relocs is not allowed when imagebase < 0x10000");
else
ih.flags |= RELOCS_STRIPPED;
}
if (memcmp(isection[0].name,"UPX",3) == 0)
throwAlreadyPackedByUPX();
if (!opt->force && IDSIZE(15))
throwCantPack("file is possibly packed/protected (try --force)");
if (ih.entry && ih.entry < rvamin)
throwCantPack("run a virus scanner on this file!");
if (!opt->force && ih.subsystem == 1)
throwCantPack("subsystem 'native' is not supported (try --force)");
if (ih.filealign < 0x200)
throwCantPack("filealign < 0x200 is not yet supported");
handleStub(fi,fo,pe_offset);
const unsigned usize = ih.imagesize;
const unsigned xtrasize = UPX_MAX(ih.datasize, 65536u) + IDSIZE(PEDIR_IMPORT) + IDSIZE(PEDIR_BOUNDIM) + IDSIZE(PEDIR_IAT) + IDSIZE(PEDIR_DELAYIMP) + IDSIZE(PEDIR_RELOC);
ibuf.alloc(usize + xtrasize);
// BOUND IMPORT support. FIXME: is this ok?
fi->seek(0,SEEK_SET);
fi->readx(ibuf,isection[0].rawdataptr);
Interval holes(ibuf);
unsigned ic,jc,overlaystart = 0;
ibuf.clear(0, usize);
for (ic = jc = 0; ic < objs; ic++)
{
if (isection[ic].rawdataptr && overlaystart < isection[ic].rawdataptr + isection[ic].size)
overlaystart = ALIGN_UP(isection[ic].rawdataptr + isection[ic].size,ih.filealign);
if (isection[ic].vsize == 0)
isection[ic].vsize = isection[ic].size;
if ((isection[ic].flags & PEFL_BSS) || isection[ic].rawdataptr == 0
|| (isection[ic].flags & PEFL_INFO))
{
holes.add(isection[ic].vaddr,isection[ic].vsize);
continue;
}
if (isection[ic].vaddr + isection[ic].size > usize)
throwCantPack("section size problem");
if (((isection[ic].flags & (PEFL_WRITE|PEFL_SHARED))
== (PEFL_WRITE|PEFL_SHARED)))
if (!opt->force)
throwCantPack("writable shared sections not supported (try --force)");
if (jc && isection[ic].rawdataptr - jc > ih.filealign)
throwCantPack("superfluous data between sections");
fi->seek(isection[ic].rawdataptr,SEEK_SET);
jc = isection[ic].size;
if (jc > isection[ic].vsize)
jc = isection[ic].vsize;
if (isection[ic].vsize == 0) // hack for some tricky programs - may this break other progs?
jc = isection[ic].vsize = isection[ic].size;
if (isection[ic].vaddr + jc > ibuf.getSize())
throwInternalError("buffer too small 1");
fi->readx(ibuf + isection[ic].vaddr,jc);
jc += isection[ic].rawdataptr;
}
// check for NeoLite
if (find(ibuf + ih.entry, 64+7, "NeoLite", 7) >= 0)
throwCantPack("file is already compressed with another packer");
unsigned overlay = file_size - stripDebug(overlaystart);
if (overlay >= (unsigned) file_size)
{
#if 0
if (overlay < file_size + ih.filealign)
overlay = 0;
else if (!opt->force)
throwNotCompressible("overlay problem (try --force)");
#endif
overlay = 0;
}
checkOverlay(overlay);
Resource res;
Interval tlsiv(ibuf);
Export xport((char*)(unsigned char*)ibuf);
const unsigned dllstrings = processImports();
processTls(&tlsiv); // call before processRelocs!!
processResources(&res);
processExports(&xport);
processRelocs();
//OutputFile::dump("x1", ibuf, usize);
// some checks for broken linkers - disable filter if necessary
bool allow_filter = true;
if (ih.codebase == ih.database
|| ih.codebase + ih.codesize > ih.imagesize
|| (isection[virta2objnum(ih.codebase,isection,objs)].flags & PEFL_CODE) == 0)
allow_filter = false;
const unsigned oam1 = ih.objectalign - 1;
// FIXME: disabled: the uncompressor would not allocate enough memory
//objs = tryremove(IDADDR(PEDIR_RELOC),objs);
// FIXME: if the last object has a bss then this won't work
// newvsize = (isection[objs-1].vaddr + isection[objs-1].size + oam1) &~ oam1;
// temporary solution:
unsigned newvsize = (isection[objs-1].vaddr + isection[objs-1].vsize + oam1) &~ oam1;
//fprintf(stderr,"newvsize=%x objs=%d\n",newvsize,objs);
if (newvsize + soimport + sorelocs > ibuf.getSize())
throwInternalError("buffer too small 2");
memcpy(ibuf+newvsize,oimport,soimport);
memcpy(ibuf+newvsize+soimport,orelocs,sorelocs);
cimports = newvsize - rvamin; // rva of preprocessed imports
crelocs = cimports + soimport; // rva of preprocessed fixups
ph.u_len = newvsize + soimport + sorelocs;
// some extra data for uncompression support
unsigned s = 0;
upx_byte * const p1 = ibuf + ph.u_len;
memcpy(p1 + s,&ih,sizeof (ih));
s += sizeof (ih);
memcpy(p1 + s,isection,ih.objects * sizeof(*isection));
s += ih.objects * sizeof(*isection);
if (soimport)
{
set_le32(p1 + s,cimports);
set_le32(p1 + s + 4,dllstrings);
s += 8;
}
if (sorelocs)
{
set_le32(p1 + s,crelocs);
p1[s + 4] = (unsigned char) (big_relocs & 6);
s += 5;
}
if (soresources)
{
set_le16(p1 + s,icondir_count);
s += 2;
}
// end of extra data
set_le32(p1 + s,ptr_diff(p1,ibuf) - rvamin);
s += 4;
ph.u_len += s;
obuf.allocForCompression(ph.u_len);
// prepare packheader
ph.u_len -= rvamin;
// prepare filter
Filter ft(ph.level);
ft.buf_len = ih.codesize;
ft.addvalue = ih.codebase - rvamin;
// compress
int filter_strategy = allow_filter ? 0 : -3;
// disable filters for files with broken headers
if (ih.codebase + ih.codesize > ph.u_len)
{
ft.buf_len = 1;
filter_strategy = -3;
}
// limit stack size needed for runtime decompression
upx_compress_config_t cconf; cconf.reset();
cconf.conf_lzma.max_num_probs = 1846 + (768 << 4); // ushort: ~28 KiB stack
compressWithFilters(&ft, 2048, &cconf, filter_strategy,
ih.codebase, rvamin, 0, NULL, 0);
// info: see buildLoader()
newvsize = (ph.u_len + rvamin + ph.overlap_overhead + oam1) &~ oam1;
/*
if (tlsindex && ((newvsize - ph.c_len - 1024 + oam1) &~ oam1) > tlsindex + 4)
tlsindex = 0;
*/
const unsigned lsize = getLoaderSize();
int identsize = 0;
const unsigned codesize = getLoaderSection("IDENTSTR",&identsize);
assert(identsize > 0);
getLoaderSection("UPX1HEAD",(int*)&ic);
identsize += ic;
pe_section_t osection[4];
// section 0 : bss
// 1 : [ident + header] + packed_data + unpacker + tls
// 2 : not compressed data
// 3 : resource data -- wince 5 needs a new section for this
// identsplit - number of ident + (upx header) bytes to put into the PE header
int identsplit = pe_offset + sizeof(osection) + sizeof(oh);
if ((identsplit & 0x1ff) == 0)
identsplit = 0;
else if (((identsplit + identsize) ^ identsplit) < 0x200)
identsplit = identsize;
else
identsplit = ALIGN_GAP(identsplit, 0x200);
ic = identsize - identsplit;
const unsigned c_len = ((ph.c_len + ic) & 15) == 0 ? ph.c_len : ph.c_len + 16 - ((ph.c_len + ic) & 15);
obuf.clear(ph.c_len, c_len - ph.c_len);
const unsigned s1size = ALIGN_UP(ic + c_len + codesize,4u) + sotls;
const unsigned s1addr = (newvsize - (ic + c_len) + oam1) &~ oam1;
const unsigned ncsection = (s1addr + s1size + oam1) &~ oam1;
const unsigned upxsection = s1addr + ic + c_len;
Reloc rel(1024); // new relocations are put here
static const char* symbols_to_relocate[] = {
"ONAM", "BIMP", "BREL", "FIBE", "FIBS", "ENTR", "DST0", "SRC0"
};
for (unsigned s2r = 0; s2r < TABLESIZE(symbols_to_relocate); s2r++)
{
unsigned off = linker->getSymbolOffset(symbols_to_relocate[s2r]);
if (off != 0xdeaddead)
rel.add(off + upxsection, 3);
}
// new PE header
memcpy(&oh,&ih,sizeof(oh));
oh.filealign = 0x200; // identsplit depends on this
memset(osection,0,sizeof(osection));
oh.entry = upxsection;
oh.objects = 4;
oh.chksum = 0;
// fill the data directory
ODADDR(PEDIR_DEBUG) = 0;
ODSIZE(PEDIR_DEBUG) = 0;
ODADDR(PEDIR_IAT) = 0;
ODSIZE(PEDIR_IAT) = 0;
ODADDR(PEDIR_BOUNDIM) = 0;
ODSIZE(PEDIR_BOUNDIM) = 0;
// tls is put into section 1
ic = s1addr + s1size - sotls;
super::processTls(&rel,&tlsiv,ic);
ODADDR(PEDIR_TLS) = sotls ? ic : 0;
ODSIZE(PEDIR_TLS) = sotls ? 0x18 : 0;
ic += sotls;
// these are put into section 2
ic = ncsection;
// wince wants relocation data at the beginning of a section
processRelocs(&rel);
ODADDR(PEDIR_RELOC) = soxrelocs ? ic : 0;
ODSIZE(PEDIR_RELOC) = soxrelocs;
ic += soxrelocs;
processImports(ic, linker->getSymbolOffset("IATT") + upxsection);
ODADDR(PEDIR_IMPORT) = ic;
ODSIZE(PEDIR_IMPORT) = soimpdlls;
ic += soimpdlls;
processExports(&xport,ic);
ODADDR(PEDIR_EXPORT) = soexport ? ic : 0;
ODSIZE(PEDIR_EXPORT) = soexport;
if (!isdll && opt->win32_pe.compress_exports)
{
ODADDR(PEDIR_EXPORT) = IDADDR(PEDIR_EXPORT);
ODSIZE(PEDIR_EXPORT) = IDSIZE(PEDIR_EXPORT);
}
ic += soexport;
ic = (ic + oam1) &~ oam1;
const unsigned res_start = ic;
if (soresources)
processResources(&res,ic);
ODADDR(PEDIR_RESOURCE) = soresources ? ic : 0;
ODSIZE(PEDIR_RESOURCE) = soresources;
ic += soresources;
const unsigned onam = ncsection + soxrelocs + ih.imagebase;
linker->defineSymbol("start_of_dll_names", onam);
linker->defineSymbol("start_of_imports", ih.imagebase + rvamin + cimports);
linker->defineSymbol("start_of_relocs", crelocs + rvamin + ih.imagebase);
linker->defineSymbol("filter_buffer_end", ih.imagebase + ih.codebase + ih.codesize);
linker->defineSymbol("filter_buffer_start", ih.imagebase + ih.codebase);
linker->defineSymbol("original_entry", ih.entry + ih.imagebase);
linker->defineSymbol("uncompressed_length", ph.u_len);
linker->defineSymbol("start_of_uncompressed", ih.imagebase + rvamin);
linker->defineSymbol("compressed_length", ph.c_len);
linker->defineSymbol("start_of_compressed", ih.imagebase + s1addr + identsize - identsplit);
defineDecompressorSymbols();
relocateLoader();
MemBuffer loader(lsize);
memcpy(loader, getLoader(), lsize);
patchPackHeader(loader, lsize);
// this is computed here, because soxrelocs changes some lines above
const unsigned ncsize = soxrelocs + soimpdlls + soexport;
const unsigned fam1 = oh.filealign - 1;
// fill the sections
strcpy(osection[0].name,"UPX0");
strcpy(osection[1].name,"UPX1");
strcpy(osection[2].name, "UPX2");
strcpy(osection[3].name, ".rsrc");
osection[0].vaddr = rvamin;
osection[1].vaddr = s1addr;
osection[2].vaddr = ncsection;
osection[3].vaddr = res_start;
osection[0].size = 0;
osection[1].size = (s1size + fam1) &~ fam1;
osection[2].size = (ncsize + fam1) &~ fam1;
osection[3].size = (soresources + fam1) &~ fam1;
osection[0].vsize = osection[1].vaddr - osection[0].vaddr;
//osection[1].vsize = (osection[1].size + oam1) &~ oam1;
//osection[2].vsize = (osection[2].size + oam1) &~ oam1;
osection[1].vsize = osection[1].size;
osection[2].vsize = osection[2].size;
osection[3].vsize = osection[3].size;
osection[0].rawdataptr = 0;
osection[1].rawdataptr = (pe_offset + sizeof(oh) + sizeof(osection) + fam1) &~ fam1;
osection[2].rawdataptr = osection[1].rawdataptr + osection[1].size;
osection[3].rawdataptr = osection[2].rawdataptr + osection[2].size;
osection[0].flags = (unsigned) (PEFL_BSS|PEFL_EXEC|PEFL_WRITE|PEFL_READ);
osection[1].flags = (unsigned) (PEFL_DATA|PEFL_EXEC|PEFL_WRITE|PEFL_READ);
osection[2].flags = (unsigned) (PEFL_DATA|PEFL_READ);
osection[3].flags = (unsigned) (PEFL_DATA|PEFL_READ);
oh.imagesize = (osection[3].vaddr + osection[3].vsize + oam1) &~ oam1;
oh.bsssize = osection[0].vsize;
oh.datasize = osection[2].vsize + osection[3].vsize;
oh.database = osection[2].vaddr;
oh.codesize = osection[1].vsize;
oh.codebase = osection[1].vaddr;
oh.headersize = osection[1].rawdataptr;
if (rvamin < osection[0].rawdataptr)
throwCantPack("object alignment too small");
if (opt->win32_pe.strip_relocs && !isdll)
oh.flags |= RELOCS_STRIPPED;
//for (ic = 0; ic < oh.filealign; ic += 4)
// set_le32(ibuf + ic,get_le32("UPX "));
ibuf.clear(0, oh.filealign);
info("Image size change: %u -> %u KiB",
ih.imagesize / 1024, oh.imagesize / 1024);
infoHeader("[Writing compressed file]");
if (soresources == 0)
{
oh.objects = 3;
memset(&osection[3], 0, sizeof(osection[3]));
}
// write loader + compressed file
fo->write(&oh,sizeof(oh));
fo->write(osection,sizeof(osection));
// some alignment
if (identsplit == identsize)
{
unsigned n = osection[1].rawdataptr - fo->getBytesWritten() - identsize;
assert(n <= oh.filealign);
fo->write(ibuf, n);
}
fo->write(loader + codesize,identsize);
infoWriting("loader", fo->getBytesWritten());
fo->write(obuf,c_len);
infoWriting("compressed data", c_len);
fo->write(loader,codesize);
if (opt->debug.dump_stub_loader)
OutputFile::dump(opt->debug.dump_stub_loader, loader, codesize);
if ((ic = fo->getBytesWritten() & 3) != 0)
fo->write(ibuf,4 - ic);
fo->write(otls,sotls);
if ((ic = fo->getBytesWritten() & fam1) != 0)
fo->write(ibuf,oh.filealign - ic);
fo->write(oxrelocs,soxrelocs);
fo->write(oimpdlls,soimpdlls);
fo->write(oexport,soexport);
if ((ic = fo->getBytesWritten() & fam1) != 0)
fo->write(ibuf,oh.filealign - ic);
fo->write(oresources,soresources);
if ((ic = fo->getBytesWritten() & fam1) != 0)
fo->write(ibuf,oh.filealign - ic);
#if 0
printf("%-13s: program hdr : %8ld bytes\n", getName(), (long) sizeof(oh));
printf("%-13s: sections : %8ld bytes\n", getName(), (long) sizeof(osection));
printf("%-13s: ident : %8ld bytes\n", getName(), (long) identsize);
printf("%-13s: compressed : %8ld bytes\n", getName(), (long) c_len);
printf("%-13s: decompressor : %8ld bytes\n", getName(), (long) codesize);
printf("%-13s: tls : %8ld bytes\n", getName(), (long) sotls);
printf("%-13s: resources : %8ld bytes\n", getName(), (long) soresources);
printf("%-13s: imports : %8ld bytes\n", getName(), (long) soimpdlls);
printf("%-13s: exports : %8ld bytes\n", getName(), (long) soexport);
printf("%-13s: relocs : %8ld bytes\n", getName(), (long) soxrelocs);
#endif
// verify
verifyOverlappingDecompression();
// copy the overlay
copyOverlay(fo, overlay, &obuf);
// finally check the compression ratio
if (!checkFinalCompressionRatio(fo))
throwNotCompressible();
}
