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f7d2b496b9
* gnu/packages/patches/patchelf-rework-for-arm.patch: New file. * gnu-system.am: Add it. * gnu/packages/elf.scm: Apply patch when the target is ARM.
473 lines
19 KiB
Diff
473 lines
19 KiB
Diff
Rework the growing algorithm in patchelf to support ARM systems.
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See <https://github.com/NixOS/patchelf/issues/8>.
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This patch copied from:
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<https://github.com/sriemer/patchelf/commit/0a96239cea6b97b9a0fff80da576e58ca2dfb2a2>
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From 0a96239cea6b97b9a0fff80da576e58ca2dfb2a2 Mon Sep 17 00:00:00 2001
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From: Sebastian Parschauer <s.parschauer@gmx.de>
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Date: Sat, 28 Jun 2014 01:24:57 +0200
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Subject: [PATCH] Rework the growing algorithm
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On ARM systems there is no space in virtual memory for another LOAD
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area in front of the code LOAD area. So insert data to its end
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instead. At this location there should be enough space in virtual
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memory due to alignment. We can extend it until the end of the
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alignment but the file shift may be greater as it must be aligned
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to the page size. Do the same for the data LOAD area.
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---
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src/patchelf.cc | 357 ++++++++++++++++++++++----------------------------------
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1 file changed, 142 insertions(+), 215 deletions(-)
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diff --git a/src/patchelf.cc b/src/patchelf.cc
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index dcbfd38..4fce9e6 100644
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--- a/src/patchelf.cc
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+++ b/src/patchelf.cc
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@@ -116,7 +116,11 @@ private:
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void sortShdrs();
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- void shiftFile(unsigned int extraPages, Elf_Addr startPage);
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+ void shiftFileSingle(size_t fileShift, Elf_Off insertOff);
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+
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+ void shiftFile(size_t neededCode, size_t neededData,
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+ Elf_Off codeOff[], Elf_Off dataOff[],
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+ Elf_Addr *codePage, Elf_Addr *dataPage);
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string getSectionName(const Elf_Shdr & shdr);
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@@ -130,13 +134,11 @@ private:
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unsigned int size);
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void writeReplacedSections(Elf_Off & curOff,
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- Elf_Addr startAddr, Elf_Off startOffset);
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+ Elf_Addr startAddr, Elf_Off startOffset, bool isData);
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void rewriteHeaders(Elf_Addr phdrAddress);
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- void rewriteSectionsLibrary();
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-
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- void rewriteSectionsExecutable();
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+ void rewriteSectionsBinary();
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public:
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@@ -391,46 +393,119 @@ static unsigned int roundUp(unsigned int n, unsigned int m)
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template<ElfFileParams>
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-void ElfFile<ElfFileParamNames>::shiftFile(unsigned int extraPages, Elf_Addr startPage)
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+void ElfFile<ElfFileParamNames>::shiftFileSingle(size_t fileShift,
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+ Elf_Off insertOff)
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{
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- /* Move the entire contents of the file `extraPages' pages
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- further. */
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unsigned int oldSize = fileSize;
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- unsigned int shift = extraPages * pageSize;
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- growFile(fileSize + extraPages * pageSize);
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- memmove(contents + extraPages * pageSize, contents, oldSize);
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- memset(contents + sizeof(Elf_Ehdr), 0, shift - sizeof(Elf_Ehdr));
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+
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+ /* Grow at the end */
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+ growFile(fileSize + fileShift);
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+
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+ /* move the data from the insertion point
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+ to the end and zero inserted space */
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+ memmove(contents + insertOff + fileShift,
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+ contents + insertOff, oldSize - insertOff);
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+ memset(contents + insertOff, 0, fileShift);
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/* Adjust the ELF header. */
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wri(hdr->e_phoff, sizeof(Elf_Ehdr));
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- wri(hdr->e_shoff, rdi(hdr->e_shoff) + shift);
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+ if (rdi(hdr->e_shoff) >= insertOff)
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+ wri(hdr->e_shoff, rdi(hdr->e_shoff) + fileShift);
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/* Update the offsets in the section headers. */
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- for (int i = 1; i < rdi(hdr->e_shnum); ++i)
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- wri(shdrs[i].sh_offset, rdi(shdrs[i].sh_offset) + shift);
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+ for (int i = 1; i < rdi(hdr->e_shnum); ++i) {
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+ if (rdi(shdrs[i].sh_offset) >= insertOff)
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+ wri(shdrs[i].sh_offset, rdi(shdrs[i].sh_offset) + fileShift);
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+ }
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/* Update the offsets in the program headers. */
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for (int i = 0; i < rdi(hdr->e_phnum); ++i) {
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- wri(phdrs[i].p_offset, rdi(phdrs[i].p_offset) + shift);
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- if (rdi(phdrs[i].p_align) != 0 &&
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- (rdi(phdrs[i].p_vaddr) - rdi(phdrs[i].p_offset)) % rdi(phdrs[i].p_align) != 0) {
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- debug("changing alignment of program header %d from %d to %d\n", i,
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- rdi(phdrs[i].p_align), pageSize);
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- wri(phdrs[i].p_align, pageSize);
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+ if (rdi(phdrs[i].p_offset) >= insertOff)
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+ wri(phdrs[i].p_offset, rdi(phdrs[i].p_offset) + fileShift);
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+ /* Check for ELF load command alignment issue the same
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+ way as glibc/elf/dl-load.c does. This gives us the
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+ chance to run an interpreter explicitly. */
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+ if (rdi(phdrs[i].p_type) == PT_LOAD && ((rdi(phdrs[i].p_vaddr) -
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+ rdi(phdrs[i].p_offset)) & (rdi(phdrs[i].p_align) - 1)) != 0) {
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+ debug("changing alignment of program header %d from %d to %d\n",
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+ i, rdi(phdrs[i].p_align), pageSize);
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+ wri(phdrs[i].p_align, pageSize);
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}
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}
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+}
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+
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+template<ElfFileParams>
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+void ElfFile<ElfFileParamNames>::shiftFile(size_t neededCode,
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+ size_t neededData, Elf_Off codeOff[], Elf_Off dataOff[],
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+ Elf_Addr *codePage, Elf_Addr *dataPage)
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+{
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+ /* Move some contents of the file further. The binary has one LOAD area
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+ * for code and one for data. There is virtual memory space between
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+ * these which we can use due to alignment.
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+ */
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+ unsigned int memShift = neededCode;
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+ unsigned int fileShift = roundUp(neededCode, pageSize);
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+ unsigned int maxMemShift = 0;
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+
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+ if (neededCode > 0) {
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+ /* find the LOAD program header for code and extend it */
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+ for (int i = 0; i < rdi(hdr->e_phnum); ++i) {
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+ if (rdi(phdrs[i].p_type) == PT_LOAD &&
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+ rdi(phdrs[i].p_flags) & PF_X) {
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+ codeOff[1] = rdi(phdrs[i].p_filesz);
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+ codeOff[0] = codeOff[1] + rdi(phdrs[i].p_offset);
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+ maxMemShift = rdi(phdrs[i].p_memsz) % rdi(phdrs[i].p_align);
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+ if (maxMemShift == 0)
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+ continue;
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+ maxMemShift = rdi(phdrs[i].p_align) - maxMemShift;
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+ if (maxMemShift == 0 || memShift > maxMemShift)
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+ continue;
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+ *codePage = rdi(phdrs[i].p_vaddr);
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+ wri(phdrs[i].p_filesz, rdi(phdrs[i].p_filesz) + memShift);
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+ wri(phdrs[i].p_memsz, rdi(phdrs[i].p_memsz) + memShift);
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+ break;
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+ }
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+ }
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+ debug("codeOff: %#lx, memShift: %d, maxMemShift: %d, fileShift: %d\n",
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+ codeOff[1], memShift, maxMemShift, fileShift);
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+ if (codeOff[1] == 0 || maxMemShift == 0)
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+ goto out;
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+
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+ shiftFileSingle(fileShift, codeOff[0]);
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+ }
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+
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+ /* +++ Do the same for the data LOAD area +++ */
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+ memShift = neededData;
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+ fileShift = roundUp(neededData, pageSize);
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+ maxMemShift = 0;
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+ if (neededData > 0) {
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+ /* find the LOAD program header for data and extend it */
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+ for (int i = 0; i < rdi(hdr->e_phnum); ++i) {
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+ if (rdi(phdrs[i].p_type) == PT_LOAD &&
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+ rdi(phdrs[i].p_flags) & PF_W) {
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+ dataOff[1] = rdi(phdrs[i].p_filesz);
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+ dataOff[0] = dataOff[1] + rdi(phdrs[i].p_offset);
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+ maxMemShift = rdi(phdrs[i].p_memsz) % rdi(phdrs[i].p_align);
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+ if (maxMemShift == 0)
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+ continue;
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+ maxMemShift = rdi(phdrs[i].p_align) - maxMemShift;
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+ if (maxMemShift == 0 || memShift > maxMemShift)
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+ continue;
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+ *dataPage = rdi(phdrs[i].p_vaddr);
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+ wri(phdrs[i].p_filesz, rdi(phdrs[i].p_filesz) + memShift);
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+ wri(phdrs[i].p_memsz, rdi(phdrs[i].p_memsz) + memShift);
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+ break;
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+ }
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+ }
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+ debug("dataOff: %#lx, memShift: %d, maxMemShift: %d, fileShift: %d\n",
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+ dataOff[1], memShift, maxMemShift, fileShift);
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+ if (dataOff[1] == 0 || maxMemShift == 0)
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+ goto out;
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- /* Add a segment that maps the new program/section headers and
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- PT_INTERP segment into memory. Otherwise glibc will choke. */
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- phdrs.resize(rdi(hdr->e_phnum) + 1);
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- wri(hdr->e_phnum, rdi(hdr->e_phnum) + 1);
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- Elf_Phdr & phdr = phdrs[rdi(hdr->e_phnum) - 1];
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- wri(phdr.p_type, PT_LOAD);
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- wri(phdr.p_offset, 0);
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- wri(phdr.p_vaddr, wri(phdr.p_paddr, startPage));
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- wri(phdr.p_filesz, wri(phdr.p_memsz, shift));
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- wri(phdr.p_flags, PF_R | PF_W);
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- wri(phdr.p_align, pageSize);
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+ shiftFileSingle(fileShift, dataOff[0]);
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+ }
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+out:
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+ return;
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}
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@@ -491,7 +566,7 @@ string & ElfFile<ElfFileParamNames>::replaceSection(const SectionName & sectionN
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template<ElfFileParams>
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void ElfFile<ElfFileParamNames>::writeReplacedSections(Elf_Off & curOff,
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- Elf_Addr startAddr, Elf_Off startOffset)
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+ Elf_Addr startAddr, Elf_Off startOffset, bool isData = false)
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{
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/* Overwrite the old section contents with 'X's. Do this
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*before* writing the new section contents (below) to prevent
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@@ -501,6 +576,9 @@ void ElfFile<ElfFileParamNames>::writeReplacedSections(Elf_Off & curOff,
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{
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string sectionName = i->first;
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Elf_Shdr & shdr = findSection(sectionName);
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+ if ((!isData && rdi(shdr.sh_flags) & SHF_WRITE) ||
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+ (isData && ~(rdi(shdr.sh_flags)) & SHF_WRITE))
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+ continue;
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memset(contents + rdi(shdr.sh_offset), 'X', rdi(shdr.sh_size));
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}
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@@ -509,6 +587,9 @@ void ElfFile<ElfFileParamNames>::writeReplacedSections(Elf_Off & curOff,
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{
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string sectionName = i->first;
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Elf_Shdr & shdr = findSection(sectionName);
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+ if ((!isData && rdi(shdr.sh_flags) & SHF_WRITE) ||
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+ (isData && ~(rdi(shdr.sh_flags)) & SHF_WRITE))
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+ continue;
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debug("rewriting section `%s' from offset 0x%x (size %d) to offset 0x%x (size %d)\n",
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sectionName.c_str(), rdi(shdr.sh_offset), rdi(shdr.sh_size), curOff, i->second.size());
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@@ -546,201 +627,47 @@ void ElfFile<ElfFileParamNames>::writeReplacedSections(Elf_Off & curOff,
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curOff += roundUp(i->second.size(), sectionAlignment);
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}
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- replacedSections.clear();
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+ if (isData)
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+ replacedSections.clear();
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}
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template<ElfFileParams>
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-void ElfFile<ElfFileParamNames>::rewriteSectionsLibrary()
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+void ElfFile<ElfFileParamNames>::rewriteSectionsBinary()
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{
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- /* For dynamic libraries, we just place the replacement sections
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- at the end of the file. They're mapped into memory by a
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- PT_LOAD segment located directly after the last virtual address
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- page of other segments. */
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- Elf_Addr startPage = 0;
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- for (unsigned int i = 0; i < phdrs.size(); ++i) {
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- Elf_Addr thisPage = roundUp(rdi(phdrs[i].p_vaddr) + rdi(phdrs[i].p_memsz), pageSize);
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- if (thisPage > startPage) startPage = thisPage;
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- }
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-
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- debug("last page is 0x%llx\n", (unsigned long long) startPage);
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+ Elf_Off codeOff[2] = {0}, dataOff[2] = {0};
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+ Elf_Addr codePage = 0, dataPage = 0;
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+ size_t neededCode = 0, neededData = 0, oldCode = 0, oldData = 0;
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+ Elf_Shdr shdr = findSection(".text");
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+ Elf_Addr firstPage = rdi(shdr.sh_addr) - rdi(shdr.sh_offset);
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+ debug("first page is 0x%llx\n", (unsigned long long) firstPage);
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- /* Compute the total space needed for the replaced sections and
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- the program headers. */
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- off_t neededSpace = (phdrs.size() + 1) * sizeof(Elf_Phdr);
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+ /* Compute the total space needed for the replaced sections */
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for (ReplacedSections::iterator i = replacedSections.begin();
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- i != replacedSections.end(); ++i)
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- neededSpace += roundUp(i->second.size(), sectionAlignment);
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- debug("needed space is %d\n", neededSpace);
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-
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-
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- size_t startOffset = roundUp(fileSize, pageSize);
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-
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- growFile(startOffset + neededSpace);
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-
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-
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- /* Even though this file is of type ET_DYN, it could actually be
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- an executable. For instance, Gold produces executables marked
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- ET_DYN. In that case we can still hit the kernel bug that
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- necessitated rewriteSectionsExecutable(). However, such
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- executables also tend to start at virtual address 0, so
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- rewriteSectionsExecutable() won't work because it doesn't have
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- any virtual address space to grow downwards into. As a
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- workaround, make sure that the virtual address of our new
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- PT_LOAD segment relative to the first PT_LOAD segment is equal
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- to its offset; otherwise we hit the kernel bug. This may
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- require creating a hole in the executable. The bigger the size
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- of the uninitialised data segment, the bigger the hole. */
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- if (isExecutable) {
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- if (startOffset >= startPage) {
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- debug("shifting new PT_LOAD segment by %d bytes to work around a Linux kernel bug\n", startOffset - startPage);
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- } else {
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- size_t hole = startPage - startOffset;
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- /* Print a warning, because the hole could be very big. */
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- fprintf(stderr, "warning: working around a Linux kernel bug by creating a hole of %zu bytes in ‘%s’\n", hole, fileName.c_str());
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- assert(hole % pageSize == 0);
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- /* !!! We could create an actual hole in the file here,
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- but it's probably not worth the effort. */
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- growFile(fileSize + hole);
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- startOffset += hole;
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- }
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- startPage = startOffset;
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- }
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-
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-
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- /* Add a segment that maps the replaced sections and program
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- headers into memory. */
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- phdrs.resize(rdi(hdr->e_phnum) + 1);
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- wri(hdr->e_phnum, rdi(hdr->e_phnum) + 1);
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- Elf_Phdr & phdr = phdrs[rdi(hdr->e_phnum) - 1];
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- wri(phdr.p_type, PT_LOAD);
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- wri(phdr.p_offset, startOffset);
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- wri(phdr.p_vaddr, wri(phdr.p_paddr, startPage));
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- wri(phdr.p_filesz, wri(phdr.p_memsz, neededSpace));
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- wri(phdr.p_flags, PF_R | PF_W);
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- wri(phdr.p_align, pageSize);
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-
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-
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- /* Write out the replaced sections. */
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- Elf_Off curOff = startOffset + phdrs.size() * sizeof(Elf_Phdr);
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- writeReplacedSections(curOff, startPage, startOffset);
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- assert((off_t) curOff == startOffset + neededSpace);
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-
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-
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- /* Move the program header to the start of the new area. */
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- wri(hdr->e_phoff, startOffset);
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-
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- rewriteHeaders(startPage);
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-}
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-
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-
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-template<ElfFileParams>
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-void ElfFile<ElfFileParamNames>::rewriteSectionsExecutable()
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-{
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- /* Sort the sections by offset, otherwise we won't correctly find
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- all the sections before the last replaced section. */
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- sortShdrs();
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-
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-
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- /* What is the index of the last replaced section? */
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- unsigned int lastReplaced = 0;
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- for (unsigned int i = 1; i < rdi(hdr->e_shnum); ++i) {
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- string sectionName = getSectionName(shdrs[i]);
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- if (replacedSections.find(sectionName) != replacedSections.end()) {
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- debug("using replaced section `%s'\n", sectionName.c_str());
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- lastReplaced = i;
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- }
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- }
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-
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- assert(lastReplaced != 0);
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-
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- debug("last replaced is %d\n", lastReplaced);
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-
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- /* Try to replace all sections before that, as far as possible.
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- Stop when we reach an irreplacable section (such as one of type
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- SHT_PROGBITS). These cannot be moved in virtual address space
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- since that would invalidate absolute references to them. */
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- assert(lastReplaced + 1 < shdrs.size()); /* !!! I'm lazy. */
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- size_t startOffset = rdi(shdrs[lastReplaced + 1].sh_offset);
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- Elf_Addr startAddr = rdi(shdrs[lastReplaced + 1].sh_addr);
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- string prevSection;
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- for (unsigned int i = 1; i <= lastReplaced; ++i) {
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- Elf_Shdr & shdr(shdrs[i]);
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- string sectionName = getSectionName(shdr);
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- debug("looking at section `%s'\n", sectionName.c_str());
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- /* !!! Why do we stop after a .dynstr section? I can't
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- remember! */
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- if ((rdi(shdr.sh_type) == SHT_PROGBITS && sectionName != ".interp")
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- || prevSection == ".dynstr")
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- {
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- startOffset = rdi(shdr.sh_offset);
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- startAddr = rdi(shdr.sh_addr);
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- lastReplaced = i - 1;
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- break;
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+ i != replacedSections.end(); ++i) {
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+ shdr = findSection(i->first);
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+ if (rdi(shdr.sh_flags) & SHF_WRITE) {
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+ oldData += rdi(shdr.sh_size);
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+ neededData += roundUp(i->second.size(), sectionAlignment);
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} else {
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- if (replacedSections.find(sectionName) == replacedSections.end()) {
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- debug("replacing section `%s' which is in the way\n", sectionName.c_str());
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- replaceSection(sectionName, rdi(shdr.sh_size));
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- }
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+ oldCode += rdi(shdr.sh_size);
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+ neededCode += roundUp(i->second.size(), sectionAlignment);
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}
|
||
- prevSection = sectionName;
|
||
}
|
||
|
||
- debug("first reserved offset/addr is 0x%x/0x%llx\n",
|
||
- startOffset, (unsigned long long) startAddr);
|
||
-
|
||
- assert(startAddr % pageSize == startOffset % pageSize);
|
||
- Elf_Addr firstPage = startAddr - startOffset;
|
||
- debug("first page is 0x%llx\n", (unsigned long long) firstPage);
|
||
-
|
||
- /* Right now we assume that the section headers are somewhere near
|
||
- the end, which appears to be the case most of the time.
|
||
- Therefore they're not accidentally overwritten by the replaced
|
||
- sections. !!! Fix this. */
|
||
- assert((off_t) rdi(hdr->e_shoff) >= startOffset);
|
||
-
|
||
-
|
||
- /* Compute the total space needed for the replaced sections, the
|
||
- ELF header, and the program headers. */
|
||
- size_t neededSpace = sizeof(Elf_Ehdr) + phdrs.size() * sizeof(Elf_Phdr);
|
||
- for (ReplacedSections::iterator i = replacedSections.begin();
|
||
- i != replacedSections.end(); ++i)
|
||
- neededSpace += roundUp(i->second.size(), sectionAlignment);
|
||
-
|
||
- debug("needed space is %d\n", neededSpace);
|
||
-
|
||
- /* If we need more space at the start of the file, then grow the
|
||
- file by the minimum number of pages and adjust internal
|
||
- offsets. */
|
||
- if (neededSpace > startOffset) {
|
||
-
|
||
- /* We also need an additional program header, so adjust for that. */
|
||
- neededSpace += sizeof(Elf_Phdr);
|
||
- debug("needed space is %d\n", neededSpace);
|
||
-
|
||
- unsigned int neededPages = roundUp(neededSpace - startOffset, pageSize) / pageSize;
|
||
- debug("needed pages is %d\n", neededPages);
|
||
- if (neededPages * pageSize > firstPage)
|
||
- error("virtual address space underrun!");
|
||
-
|
||
- firstPage -= neededPages * pageSize;
|
||
- startOffset += neededPages * pageSize;
|
||
-
|
||
- shiftFile(neededPages, firstPage);
|
||
- }
|
||
-
|
||
-
|
||
- /* Clear out the free space. */
|
||
- Elf_Off curOff = sizeof(Elf_Ehdr) + phdrs.size() * sizeof(Elf_Phdr);
|
||
- debug("clearing first %d bytes\n", startOffset - curOff);
|
||
- memset(contents + curOff, 0, startOffset - curOff);
|
||
+ debug("needed space is C: %d, D: %d\n", neededCode, neededData);
|
||
|
||
+ /* If we need more space within the file, then grow the
|
||
+ file and adjust internal offsets. */
|
||
+ shiftFile(neededCode, neededData, codeOff, dataOff, &codePage,
|
||
+ &dataPage);
|
||
+ assert(codeOff[0] > 0);
|
||
|
||
/* Write out the replaced sections. */
|
||
- writeReplacedSections(curOff, firstPage, 0);
|
||
- assert((off_t) curOff == neededSpace);
|
||
-
|
||
+ debug("codePage: %#lx, dataPage: %#lx\n", codePage, dataPage);
|
||
+ writeReplacedSections(codeOff[0], codePage + codeOff[1], codeOff[0]);
|
||
+ writeReplacedSections(dataOff[0], dataPage + dataOff[1], dataOff[0], true);
|
||
|
||
rewriteHeaders(firstPage + rdi(hdr->e_phoff));
|
||
}
|
||
@@ -758,10 +685,10 @@ void ElfFile<ElfFileParamNames>::rewriteSections()
|
||
|
||
if (rdi(hdr->e_type) == ET_DYN) {
|
||
debug("this is a dynamic library\n");
|
||
- rewriteSectionsLibrary();
|
||
+ rewriteSectionsBinary();
|
||
} else if (rdi(hdr->e_type) == ET_EXEC) {
|
||
debug("this is an executable\n");
|
||
- rewriteSectionsExecutable();
|
||
+ rewriteSectionsBinary();
|
||
} else error("unknown ELF type");
|
||
}
|
||
|
||
--
|
||
2.1.2
|
||
|