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[/] [forwardcom/] [bintools/] [linker2.cpp] - Rev 103
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/**************************** relink.cpp *********************************** * Author: Agner Fog * date created: 2017-12-07 * Last modified: 2018-03-30 * Version: 1.10 * Project: Binary tools for ForwardCom instruction set * Description: * This module contains the relinking feature of the linker. * * Copyright 2017-2020 GNU General Public License http://www.gnu.org/licenses *****************************************************************************/ #include "stdafx.h" // load executable file to be relinked void CLinker::loadExeFile() { // Read input file const char * inputFileName = cmd.getFilename(cmd.inputFile); inputFile.read(inputFileName); if (err.number()) return; inputFile.split(); if (!(inputFile.fileHeader.e_flags & EF_RELINKABLE)) { err.submit(ERR_INPUT_NOT_RELINKABLE, inputFileName); return; } // get names of modules and libraries to remove or replace getReplaceNames(); #if 0 for (int i = 0; i < rnames.numEntries(); i++) { printf("\n%4X %s", rnames[i].command, cmd.getFilename(rnames[i].filename)); } #endif markSectionsInInputFile(); } // get names of modules and libraries to remove or replace void CLinker::getReplaceNames() { uint32_t i, j; // loop counter. command index const char * fname; // file name or module name SLCommand cmd2; // copy of command line item numObjects = 0; // number of object files to add numLibraries = 0; // number of library files to add bool isLib; // file name indicates a library (.li or .a) // make a list of removed and replaced modules and libraries // and count number of object files and library files for (i = 0; i < cmd.lcommands.numEntries(); i++) { cmd2.command = 0; // name of module fname = cmd.getFilename(cmd.lcommands[i].filename); // is it a library? isLib = false; // find last '.' for (j = (int32_t)strlen(fname) - 1; j > 0; j--) { if (fname[j] == '.') break; } if ((j > 0 && strncasecmp_(fname + j, ".li", 3) == 0) || fname[j+1] == 'a') { isLib = true; } if ((cmd.lcommands[i].command & 0xFF) == CMDL_LINK_ADDMODULE) { // remove path cmd.lcommands[i].value = cmd.fileNameBuffer.pushString(removePath(fname)); if (isLib) { // this is a library numLibraries++; cmd.lcommands[i].command = CMDL_LINK_ADDLIBRARY | (cmd.lcommands[i].command & CMDL_LINK_RELINKABLE); } else { // assume that this is an object file numObjects++; } cmd2 = cmd.lcommands[i]; cmd2.command |= CMDL_LINK_REPLACE; } if ((cmd.lcommands[i].command & 0xFF) == CMDL_LINK_ADDLIBMODULE) { // object module from library file // remove path cmd.lcommands[i].value = cmd.fileNameBuffer.pushString(removePath(fname)); numObjects++; cmd2 = cmd.lcommands[i]; cmd2.command |= CMDL_LINK_REPLACE; } if ((uint8_t)cmd.lcommands[i].command == CMDL_LINK_REMOVE) { // remove module from relinkable file // remove path cmd.lcommands[i].value = cmd.fileNameBuffer.pushString(removePath(fname)); cmd2 = cmd.lcommands[i]; if (isLib) cmd2.command |= CMDL_LINK_ADDLIBRARY; else cmd2.command |= CMDL_LINK_ADDMODULE; } // add command to rnames if (cmd2.command) { int32_t r = rnames.findFirst(cmd2); if (r >= 0) { // already in list. combine commands rnames[r].command |= cmd2.command; } else { // new name. add to list rnames.addUnique(cmd2); } } } } // check which sections to keep or remove in executable input file, // and make list of modules and libraries to relink void CLinker::markSectionsInInputFile() { uint32_t sec; // section index uint32_t rec; // rnames index const char * modName; // module name const char * libName; // library name SLCommand cmdrec; // command record used only for name search SRelinkModule relModul; // name of relinked module zeroAllMembers(cmdrec); for (sec = 0; sec < inputFile.sectionHeaders.numEntries(); sec++) { ElfFwcShdr secHdr = inputFile.sectionHeaders[sec]; if (secHdr.sh_type == 0) continue; inputFile.sectionHeaders[sec].sh_relink = 0; if (secHdr.sh_module && secHdr.sh_module < inputFile.secStringTableLen) { modName = inputFile.secStringTable + secHdr.sh_module; } else modName = ""; if (secHdr.sh_library && secHdr.sh_library < inputFile.secStringTableLen) { libName = inputFile.secStringTable + secHdr.sh_library; } else libName = ""; // search for module name and library name in rnames zeroAllMembers(cmdrec); zeroAllMembers(relModul); if (modName[0]) { cmdrec.value = relModul.moduleName = cmd.fileNameBuffer.pushString(modName); int32_t f1 = rnames.findFirst(cmdrec); if (f1 >= 0) { // module name is in list rnames[f1].command |= CMD_NAME_FOUND; // mark name found cmdrec.command = rnames[f1].command & ~CMDL_LINK_ADDLIBRARY; if (inputFile.sectionHeaders[sec].sh_flags & SHF_RELINK) { inputFile.sectionHeaders[sec].sh_relink = (uint8_t)rnames[f1].command; // mark section for replace or delete } else { err.submit(ERR_CANT_RELINK_MODULE, modName); } } } if (libName[0]) { cmdrec.value = relModul.libraryName = cmd.fileNameBuffer.pushString(libName); int32_t f2 = rnames.findFirst(cmdrec); if (f2 >= 0) { // library name is in list rnames[f2].command |= CMD_NAME_FOUND; // mark name found cmdrec.command = rnames[f2].command | CMDL_LINK_ADDLIBRARY; if (inputFile.sectionHeaders[sec].sh_flags & SHF_RELINK) { inputFile.sectionHeaders[sec].sh_relink |= (uint8_t)rnames[f2].command; // mark section for replace or delete } else { err.submit(ERR_CANT_RELINK_LIBRARY, modName); } } } // add module or library to relinkModules list unless it is removed or replaced if (cmdrec.value && !(cmdrec.command & (CMDL_LINK_REMOVE | CMDL_LINK_REPLACE))) { relinkModules.addUnique(relModul); } #if 0 // testing only: list sections const char * secName; // section name if (secHdr.sh_name < inputFile.stringBuffer.dataSize()) { secName = inputFile.stringBuffer.getString(secHdr.sh_name); } else secName = ""; printf("\n: %2i >> %s %s %s %2X", sec, secName, libName, modName, inputFile.sectionHeaders[sec].sh_relink); #endif } #if 0 // testing only: list kept modules and libraries for (rec = 0; rec < relinkModules.numEntries(); rec++) { printf("\n# %s:%s", cmd.getFilename(relinkModules[rec].libraryName), cmd.getFilename(relinkModules[rec].moduleName)); } #endif // check if all remove/replace records in rnames have been matched by sections in input file for (rec = 0; rec < rnames.numEntries(); rec++) { if ((rnames[rec].command & CMDL_LINK_REMOVE) && !(rnames[rec].command & CMD_NAME_FOUND)) { // unmatched name modName = cmd.getFilename(uint32_t(rnames[rec].value)); if (rnames[rec].command & CMDL_LINK_ADDMODULE) { err.submit(ERR_RELINK_MODULE_NOT_FOUND, modName); } else { err.submit(ERR_RELINK_LIBRARY_NOT_FOUND, modName); } } } } // extract a module from executable input file void CLinker::extractModule(CELF & modul, uint32_t libname, uint32_t name) { // libname: library name as index into cmd.fileNameBuffer. Zero if not a library member // name: module name as index into cmd.fileNameBuffer. Zero to build a module of all non-relinkable sections uint32_t sec; // section index in inputFile uint32_t seci; // section index in modul uint32_t sym; // symbol index in inputFile uint32_t symi; // symbol index in modul uint32_t rel; // relocation index in inputFile const char * modName; // module name of section const char * libName; // library name of library const char * modName1; // module name to search for const char * libName1; // library name to search for uint32_t * symp; // pointer to symbol index modName1 = cmd.getFilename(name); // will be "" if name = 0 libName1 = cmd.getFilename(libname); // will be "" if libname = 0 CDynamicArray<uint32_t> symbolTranslate; // list for translating symbol indexes from inputFile to modul CDynamicArray<uint32_t> sectionTranslate; // list for translating section indexes from inputFile to modul CDynamicArray<SSymbol2> externalSymbols; // list of external symbols referenced by current module CDynamicArray<uint32_t> symbolTranslate2; // list for translating symbol indexes from externalSymbols to modul ElfFwcSym symrec; // symbol record // prepare translation of symbol indexes symbolTranslate.setNum(inputFile.symbols.numEntries()); sectionTranslate.setNum(inputFile.sectionHeaders.numEntries()); zeroAllMembers(symrec); modul.addSymbol(symrec, inputFile.stringBuffer); // make symbol zero empty // loop through sections of input file for (sec = 0; sec < inputFile.sectionHeaders.numEntries(); sec++) { ElfFwcShdr secHdr = inputFile.sectionHeaders[sec]; if (secHdr.sh_type == 0) continue; // skip first empty section if (secHdr.sh_flags & SHF_RELINK) { // relinkable section. check name match if (secHdr.sh_module && secHdr.sh_module < inputFile.secStringTableLen) { modName = inputFile.secStringTable + secHdr.sh_module; } else continue; if (strcmp(modName, modName1) != 0) continue; // name doesn't match // check library name if (secHdr.sh_library && secHdr.sh_library < inputFile.secStringTableLen) { libName = inputFile.secStringTable + secHdr.sh_library; if (libname == 0) continue; // library member not requested if (strcmp(libName, libName1) != 0) continue; // library name doesn't match } else if (libname) continue; // not a library member } else { // non-relinkable section if (name || libname) continue; // name = 0 for collecting non-relinkable sections // non-relinkable sections must have fixed addresses relative to each other because the // corresponding relocation records are not preserved. // Insert address relative to ip_base, datap_base, or threadp_base: switch (secHdr.sh_flags & SHF_BASEPOINTER) { case SHF_IP: secHdr.sh_addr = secHdr.sh_addr - inputFile.fileHeader.e_ip_base; break; case SHF_DATAP: secHdr.sh_addr = secHdr.sh_addr - inputFile.fileHeader.e_datap_base; break; case SHF_THREADP: secHdr.sh_addr = secHdr.sh_addr - inputFile.fileHeader.e_threadp_base; break; } } // all sections that do not match name and libname have been skipped now if (secHdr.sh_flags & SHF_AUTOGEN) continue; // auto-generated section. will be re-made // add this section to the module seci = modul.addSection(secHdr, inputFile.stringBuffer, inputFile.dataBuffer); sectionTranslate[sec] = seci; // find symbols in this section for (sym = 0; sym < inputFile.symbols.numEntries(); sym++) { if (inputFile.symbols[sym].st_section == sec) { // save symbol symrec = inputFile.symbols[sym]; symrec.st_section = seci; symi = modul.addSymbol(symrec, inputFile.stringBuffer); symbolTranslate[sym] = symi; } } } // find relocations in any section belonging to this module for (rel = 0; rel < inputFile.relocations.numEntries(); rel++) { sec = inputFile.relocations[rel].r_section; if (sec < sectionTranslate.numEntries()) { seci = sectionTranslate[sec]; if (seci) { ElfFwcReloc reloc = inputFile.relocations[rel]; reloc.r_section = seci; // loop to cover both symbol and reference symbol in relocation record for (int i = 0; i < 2; i++) { symp = i ? &reloc.r_refsym : &reloc.r_sym; if (*symp) { // there is a symbol index if (*symp < symbolTranslate.numEntries() && symbolTranslate[*symp]) { // symbol is in same module. Translate to index in modul *symp = symbolTranslate[*symp]; } else if (*symp < inputFile.symbols.numEntries()) { // symbol is external. make external symbol record SSymbol2 symbol2 = inputFile.symbols[*symp]; symbol2.st_section = 0; // make symbol external symbol2.st_value = 0; // put symbol name in global symbolNameBuffer for the purpose of sorting if (symbol2.st_name >= inputFile.stringBuffer.dataSize()) { err.submit(ERR_ELF_INDEX_RANGE); return; } const char * symname = (char*)inputFile.stringBuffer.buf() + symbol2.st_name; symbol2.st_name = symbolNameBuffer.pushString(symname); // add to list of external symbols, avoid duplicates externalSymbols.addUnique(symbol2); // remember that symbol index is not resolved yet *symp |= 0x80000000; } else err.submit(ERR_ELF_INDEX_RANGE); } } // save relocation record modul.addRelocation(reloc); } } } // add external symbols to modul and remember new indexes symbolTranslate2.setNum(externalSymbols.numEntries()); for (sym = 0; sym < externalSymbols.numEntries(); sym++) { symrec = externalSymbols[sym]; if (symrec.st_bind == STB_UNRESOLVED) { symrec.st_bind = STB_GLOBAL; // unresolved symbol from incomplete executable. attempt to resolve it again } symbolTranslate2[sym] = modul.addSymbol(symrec, symbolNameBuffer); } // resolve external symbol indexes in relocation records in new module for (rel = 0; rel < modul.relocations.numEntries(); rel++) { ElfFwcReloc & modulReloc = modul.relocations[rel]; // loop to cover both symbol and reference symbol in relocation record for (int i = 0; i < 2; i++) { uint32_t * symp = i ? &modulReloc.r_refsym : &modulReloc.r_sym; if (*symp & 0x80000000) { // find symbol index in externalSymbols SSymbol2 sym2 = inputFile.symbols[*symp & 0x7FFFFFFF]; const char * symname = (char*)inputFile.stringBuffer.buf() + sym2.st_name; sym2.st_name = symbolNameBuffer.pushString(symname); int32_t eindex = externalSymbols.findFirst(sym2); if (eindex < 0) { err.submit(ERR_INDEX_OUT_OF_RANGE); // should not occur return; } *symp = symbolTranslate2[(uint32_t)eindex]; } } } ElfFwcEhdr head; zeroAllMembers(head); modul.join(&head); } // count number of modules and libraries to reuse when relinking void CLinker::countReusedModules() { uint32_t rec; // record index const char * libname; // library name const char * lastlibname = ""; // library name of preceding record numRelinkObjects = 1; // including modules1[0] which contains all reused non-relinkable modules numRelinkLibraries = 0; // number of relinkable modules // this is counted as one, even if unused if (cmd.job != CMDL_JOB_RELINK) return; // not relinking // loop through relinkModules list for (rec = 0; rec < relinkModules.numEntries(); rec++) { if (relinkModules[rec].libraryName) { libname = cmd.getFilename(relinkModules[rec].libraryName); if (rec > 0 && strcmp(libname, lastlibname) == 0) { continue; // multiple modules from same library: count only once } lastlibname = libname; numRelinkLibraries++; } else if (relinkModules[rec].moduleName) numRelinkObjects++; } } // get all relinked objects into modules1 metabuffer void CLinker::getRelinkObjects() { uint32_t rec; // record index uint32_t mod = 0; // module index uint32_t sec = 0; // section index const char * modname; // module name // join all non-relinkable sections into first entry extractModule(modules1[0], 0, 0); mod++; #if 1 // testing: write module file modules1[0].write("ff.ob"); #endif // mark all sections for fixed position because they have already been relocated for (sec = 0; sec < modules1[0].sectionHeaders.numEntries(); sec++) { modules1[0].sectionHeaders[sec].sh_flags |= SHF_FIXED; } if (cmd.verbose && numRelinkObjects > 1) { printf("\nReusing object modules:"); } // loop through relinkModules list to search for non-library modules for (rec = 0; rec < relinkModules.numEntries(); rec++) { if (relinkModules[rec].libraryName == 0 && relinkModules[rec].moduleName != 0) { extractModule(modules1[mod], 0, relinkModules[rec].moduleName); modules1[mod].moduleName = relinkModules[rec].moduleName; modules1[mod].relinkable = true; extractModuleToFile(modules1[mod]); // possibly extract to file mod++; // write name if (cmd.verbose) { modname = cmd.getFilename(relinkModules[rec].moduleName); printf(" %s", modname); } } } } // extract a module from relinkable file if requested void CLinker::extractModuleToFile(CELF & modu) { // search for extract command if (!(cmd.libraryOptions & CMDL_LIBRARY_EXTRACTMEM)) return; uint32_t i; // loop counter const char * modname1; // module name const char * modname2; // module name on command line bool extract = false; modname1 = cmd.getFilename(modu.moduleName); if (modname1[0] == 0) return; if (cmd.libraryOptions == CMDL_LIBRARY_EXTRACTALL) extract = true; for (i = 0; i < cmd.lcommands.numEntries(); i++) { if (cmd.lcommands[i].command == CMDL_LINK_EXTRACT) { // name of module modname2 = cmd.getFilename(cmd.lcommands[i].filename); if (strcmp(modname1, modname2) == 0) { extract = true; break; } } } if (!extract) return; // no request for extracting this module // make new name = old name prefixed by "x_" uint32_t newname = cmd.fileNameBuffer.dataSize(); cmd.fileNameBuffer.push("x_", 2); cmd.fileNameBuffer.pushString(modname1); modname2 = cmd.getFilename(newname); modu.write(modname2); } // recover relinkable library modules void CLinker::getRelinkLibraries() { if (cmd.job != CMDL_JOB_RELINK) return; // not relinking uint32_t rec; // record index const char * libname; // library name const char * nextlibname = ""; // library name of next record const char * modname; // module name uint32_t iLibrary = numLibraries + 1; // library index CELF modul; // recovered library module if (cmd.verbose && numRelinkLibraries) { printf("\nRecovering library modules:"); } // loop through relinkModules list, looking for library modules for (rec = 0; rec < relinkModules.numEntries(); rec++) { if (relinkModules[rec].libraryName && relinkModules[rec].moduleName) { libname = cmd.getFilename(relinkModules[rec].libraryName); modname = cmd.getFilename(relinkModules[rec].moduleName); if (cmd.verbose) { printf(" %s:%s", libname, modname); } // extract library module from relinkable input file modul.reset(); extractModule(modul, relinkModules[rec].libraryName, relinkModules[rec].moduleName); modul.moduleName = relinkModules[rec].moduleName; modul.library = iLibrary; //?? extractModuleToFile(modul); // extract to file if requested // build internal library libraries[iLibrary].addELF(modul); if (rec + 1 < relinkModules.numEntries()) { nextlibname = cmd.getFilename(relinkModules[rec+1].libraryName); } else nextlibname = "?/"; if (strcmp(libname, nextlibname) != 0) { // last module for this library. Finish internal library libraries[iLibrary].makeInternalLibrary(); libraries[iLibrary].libraryName = relinkModules[rec].libraryName; libraries[iLibrary].relinkable = true; iLibrary++; } } } } // write feedback to console void CLinker::feedBackText2() { if (!(cmd.verbose)) return; // write feedback only if verbose uint32_t i; // loop counter const char * name; // name of file or module const char * libname; // name of library bool written = false; // message has been written // search for removed objects for (i = 0; i < rnames.numEntries(); i++) { if (((uint8_t)rnames[i].command & CMDL_LINK_REMOVE) && !((uint8_t)rnames[i].command & CMDL_LINK_ADDLIBRARY)) { if (!written) printf("\nRemoving object files:"); written = true; name = cmd.getFilename(uint32_t(rnames[i].value)); printf(" %s", name); if (!(rnames[i].command & CMD_NAME_FOUND)) printf(" failed!"); } } // list of added objects have already been written to console. // write replaced and removed objects written = false; // search for replaced objects for (i = 0; i < rnames.numEntries(); i++) { if ((rnames[i].command & CMDL_LINK_ADDMODULE) && (rnames[i].command & CMD_NAME_FOUND) &&!(rnames[i].command & CMDL_LINK_REMOVE)) { if (!written) printf("\nReplacing object files:"); written = true; name = cmd.getFilename(uint32_t(rnames[i].value)); printf(" %s", name); } } written = false; // search for removed libraries for (i = 0; i < rnames.numEntries(); i++) { if ((uint8_t)rnames[i].command == (CMDL_LINK_REMOVE | CMDL_LINK_ADDLIBRARY)) { if (!written) printf("\nRemoving library files:"); written = true; name = cmd.getFilename(rnames[i].filename); printf(" %s", name); if (!(rnames[i].command & CMD_NAME_FOUND)) printf(" failed!"); } } written = false; // search for added libraries for (i = 0; i < rnames.numEntries(); i++) { if ((uint8_t)rnames[i].command == (CMDL_LINK_REPLACE | CMDL_LINK_ADDLIBRARY) && !(rnames[i].command & CMD_NAME_FOUND)) { if (!written) printf("\nAdding library files:"); written = true; name = cmd.getFilename(rnames[i].filename); printf(" %s", name); } } written = false; // search for replaced libraries for (i = 0; i < rnames.numEntries(); i++) { if ((rnames[i].command & CMDL_LINK_REPLACE) && (rnames[i].command & CMDL_LINK_ADDLIBRARY) && (rnames[i].command & CMD_NAME_FOUND)) { if (!written) printf("\nReplacing library files:"); written = true; name = cmd.getFilename(rnames[i].filename); printf(" %s", name); } } written = false; // search for added library members for (i = 0; i < libmodules.numEntries(); i++) { uint32_t lib = libmodules[i].library & 0x7FFFFFFF; if (!written) printf("\nUsing library members:"); written = true; libname = cmd.getFilename(libraries[lib].libraryName); name = libraries[lib].getMemberName(libmodules[i].offset); printf(" %s:%s", libname, name); } }
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