fix: add talon binary with HOSTNAME fixes.
// Copyright (c) 2008-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of "Eclipse Public License v1.0"
// which accompanies this distribution, and is available
// at the URL "http://www.eclipse.org/legal/epl-v10.html".
//
// Initial Contributors:
// Nokia Corporation - initial contribution.
//
// Contributors:
//
// Description:
//
#include "elf_file_header.h"
#include <stdexcept>
#include <string>
namespace elf
{
File_header::File_header(const char* p1, const char* p2, bool a_pedantic)
: m_data( reinterpret_cast<const Elf32_Ehdr*>(p1) )
{
if ( p1 + sizeof(Elf32_Ehdr) > p2 )
{
throw std::runtime_error("not an ELF object; file too small");
}
uint8_t m0 = m_data->e_ident[0];
uint8_t m1 = m_data->e_ident[1];
uint8_t m2 = m_data->e_ident[2];
uint8_t m3 = m_data->e_ident[3];
if (m0 != 0x7f || m1 != 'E' || m2 != 'L' || m3 != 'F')
{
throw std::runtime_error("not an ELF object; bad magic");
}
if (a_pedantic) // Do some extra checks for correctness.
{
//if (m_data->e_ident[4] != 1)
//{
// throw std::runtime_error("invalid class; this program can only handle 32-bit objects");
//}
//if (m_data->e_ident[5] != 1)
//{
// throw std::runtime_error("invalid encoding; this program can only handle little-endian objects");
//}
//for (unsigned i = EI_PAD; i < sizeof(m_data->e_ident); ++i)
//{
// if (m_data->e_ident[i] != 0)
// {
// throw std::runtime_error("non-zero pading");
// }
//}
//if (m_data->e_type == ET_NONE)
//{
// throw std::runtime_error("invalid type");
//}
//if (m_data->e_phoff == 0 && m_data->e_shoff == 0)
//{
// throw std::runtime_error("no program headers and no section headers");
//}
//if ( m_data->e_phoff + m_data->e_phentsize * m_data->e_phnum > p2 - p1 + 1 )
//{
// throw std::runtime_error("file too small for header table");
//}
//if (m_data->e_shoff + m_data->e_shentsize * m_data->e_shnum > a_mem.get_size() )
//{
// throw std::runtime_error("file too small for header table");
//}
//if ( m_data->e_shentsize != sizeof(Elf32_Shdr) )
//{
// throw std::runtime_error("e_shentsize doesn't match the actual size of the type");
//}
//if (m_data->e_shoff > 0 && m_data->e_shnum == 0)
//{
// throw std::runtime_error("this program can't handle the combination e_shoff > 0 and e_shnum == 0");
//}
//if (m_data->e_shstrndx >= 0xff00)
//{
// throw std::runtime_error("this program can only handle e_shstrndx < 0xff00");
//}
} // if (a_pedantic)
}
// The following functions are obvious candidates for inlining ...
// e_type
bool File_header::is_type_rel() const
{
return (m_data->e_type == ET_REL);
}
bool File_header::is_type_exec() const
{
return (m_data->e_type == ET_EXEC);
}
bool File_header::is_type_dyn() const
{
return (m_data->e_type == ET_DYN);
}
// e_machine
bool File_header::is_machine_none() const
{
return (m_data->e_machine == EM_NONE);
}
bool File_header::is_machine_arm() const
{
return (m_data->e_machine == EM_ARM);
}
bool File_header::is_machine_386() const
{
return (m_data->e_machine == EM_386);
}
uint32_t File_header::get_entry() const
{
return m_data->e_entry;
}
uint32_t File_header::get_phoff() const
{
return m_data->e_phoff;
}
uint32_t File_header::get_shoff() const
{
return m_data->e_shoff;
}
uint32_t File_header::get_flags() const
{
return m_data->e_flags;
}
uint16_t File_header::get_ehsize() const
{
return m_data->e_ehsize;
}
uint16_t File_header::get_phentsize() const
{
return m_data->e_phentsize;
}
uint16_t File_header::get_phnum() const
{
return m_data->e_phnum;
}
uint16_t File_header::get_shentsize() const
{
return m_data->e_shentsize;
}
uint16_t File_header::get_shnum() const
{
return m_data->e_shnum;
}
uint16_t File_header::get_shstrndx() const
{
return m_data->e_shstrndx;
}
} // namespace elf