#include "ElfBinary.class.h" #include ElfBinary::~ElfBinary() { for (SimpleList *iter = m_phdr; iter != 0; iter = iter->next()) { delete iter->v().data; } } Binary* ElfBinary::load(File& file) { elf_ehdr_t hdr; file.read (&hdr); //Verify we have an elf file if (hdr.e_ident[0] != 0x7F or hdr.e_ident[1] != 'E' or hdr.e_ident[2] != 'L' or hdr.e_ident[3] != 'F') return 0; //Store elf header into a new ElfBinary ElfBinary* b = new ElfBinary(); memcpy((u8int*)&b->m_ehdr, (const u8int*) &hdr, sizeof(elf_ehdr_t)); b->m_phdr = 0; //Load program headers file.seek(hdr.e_phoff, SM_BEGINNING); for (u32int i = 0; i < hdr.e_phnum; i++) { b->m_phdr = b->m_phdr->cons(phdr_t()); file.read(&b->m_phdr->v().h); //Load current entry from file } //Load data for (SimpleList *iter = b->m_phdr; iter != 0; iter = iter->next()) { iter->v().data = (u8int*)Mem::alloc(iter->v().h.p_filesz); file.seek(iter->v().h.p_offset, SM_BEGINNING); file.read(iter->v().h.p_filesz, iter->v().data); } return b; } thread_entry_t ElfBinary::toProcess(Process* p) { for (SimpleList *iter = m_phdr; iter != 0; iter = iter->next()) { phdr_t &e = iter->v(); if (e.h.p_type == PT_LOAD) { for (u32int i = e.h.p_vaddr; i < e.h.p_vaddr + e.h.p_memsz; i += 0x1000) { p->getPagedir()->allocFrame(i, true, true); } p->getPagedir()->switchTo(); memcpy((u8int*)e.h.p_vaddr, (const u8int*)e.data, e.h.p_filesz); if (e.h.p_memsz > e.h.p_filesz) { //set to zero all the remaining space u8int* x = (u8int*)e.h.p_vaddr; for (u32int i = e.h.p_vaddr + e.h.p_filesz; i < e.h.p_filesz; i++) { x[i] = 0; } } } } return (thread_entry_t)m_ehdr.e_entry; }