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////////////////////////////////////////////////////////////////////////////////

//

// Filename:    zipelf.cpp

//

// Project:     OpenArty, an entirely open SoC based upon the Arty platform

//

// Purpose:     

//

//

// Creator:     Dan Gisselquist, Ph.D.

//              Gisselquist Technology, LLC

//

////////////////////////////////////////////////////////////////////////////////

//

// Copyright (C) 2015-2017, Gisselquist Technology, LLC

//

// This program is free software (firmware): you can redistribute it and/or

// modify it under the terms of  the GNU General Public License as published

// by the Free Software Foundation, either version 3 of the License, or (at

// your option) any later version.

//

// This program is distributed in the hope that it will be useful, but WITHOUT

// ANY WARRANTY; without even the implied warranty of MERCHANTIBILITY or

// FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License

// for more details.

//

// You should have received a copy of the GNU General Public License along

// with this program.  (It's in the $(ROOT)/doc directory.  Run make with no

// target there if the PDF file isn't present.)  If not, see

// <http://www.gnu.org/licenses/> for a copy.

//

// License:     GPL, v3, as defined and found on www.gnu.org,

//              http://www.gnu.org/licenses/gpl.html

//

//

////////////////////////////////////////////////////////////////////////////////

//

//

#include <stdlib.h>

#include <stdio.h>

#include <stdint.h>

#include <unistd.h>

#include <sys/types.h>

#include <sys/stat.h>

#include <fcntl.h>

#include <libelf.h>

#include <assert.h>

#include <gelf.h>

#include <string.h>

#include "zipelf.h"

bool

iself(const char *fname)

{

        FILE    *fp;

        bool    ret = true;

        fp = fopen(fname, "rb");

        if (!fp)        return false;

        if (0x7f != fgetc(fp))  ret = false;

        if ('E'  != fgetc(fp))  ret = false;

        if ('L'  != fgetc(fp))  ret = false;

        if ('F'  != fgetc(fp))  ret = false;

        fclose(fp);

        return  ret;

}

void    elfread(const char *fname, unsigned &entry, ELFSECTION **&sections)

{

        Elf     *e;

        int     fd, i;

        size_t  n;

        char    *id;

        Elf_Kind        ek;

        GElf_Ehdr       ehdr;

        GElf_Phdr       phdr;

        const   bool    dbg = false;

        if (elf_version(EV_CURRENT) == EV_NONE) {

                fprintf(stderr, "ELF library initialization err, %s\n", elf_errmsg(-1));

                perror("O/S Err:");

                exit(EXIT_FAILURE);

        } if ((fd = open(fname, O_RDONLY, 0)) < 0) {

                fprintf(stderr, "Could not open %s\n", fname);

                perror("O/S Err:");

                exit(EXIT_FAILURE);

        } if ((e = elf_begin(fd, ELF_C_READ, NULL))==NULL) {

                fprintf(stderr, "Could not run elf_begin, %s\n", elf_errmsg(-1));

                exit(EXIT_FAILURE);

        }

        ek = elf_kind(e);

        if (ek == ELF_K_ELF) {

                ; // This is the kind of file we should expect

        } else if (ek == ELF_K_AR) {

                fprintf(stderr, "Cannot run an archive!\n");

                exit(EXIT_FAILURE);

        } else if (ek == ELF_K_NONE) {

                ;

        } else {

                fprintf(stderr, "Unexpected ELF file kind!\n");

                exit(EXIT_FAILURE);

        }

        if (gelf_getehdr(e, &ehdr) == NULL) {

                fprintf(stderr, "getehdr() failed: %s\n", elf_errmsg(-1));

                exit(EXIT_FAILURE);

        } if ((i=gelf_getclass(e)) == ELFCLASSNONE) {

                fprintf(stderr, "getclass() failed: %s\n", elf_errmsg(-1));

                exit(EXIT_FAILURE);

        } if ((id = elf_getident(e, NULL)) == NULL) {

                fprintf(stderr, "getident() failed: %s\n", elf_errmsg(-1));

                exit(EXIT_FAILURE);

        } if (i != ELFCLASS32) {

                fprintf(stderr, "This is a 64-bit ELF file, ZipCPU ELF files are all 32-bit\n");

                exit(EXIT_FAILURE);

        }

        if (dbg) {

        printf("    %-20s 0x%jx\n", "e_type", (uintmax_t)ehdr.e_type);

        printf("    %-20s 0x%jx\n", "e_machine", (uintmax_t)ehdr.e_machine);

        printf("    %-20s 0x%jx\n", "e_version", (uintmax_t)ehdr.e_version);

        printf("    %-20s 0x%jx\n", "e_entry", (uintmax_t)ehdr.e_entry);

        printf("    %-20s 0x%jx\n", "e_phoff", (uintmax_t)ehdr.e_phoff);

        printf("    %-20s 0x%jx\n", "e_shoff", (uintmax_t)ehdr.e_shoff);

        printf("    %-20s 0x%jx\n", "e_flags", (uintmax_t)ehdr.e_flags);

        printf("    %-20s 0x%jx\n", "e_ehsize", (uintmax_t)ehdr.e_ehsize);

        printf("    %-20s 0x%jx\n", "e_phentsize", (uintmax_t)ehdr.e_phentsize);

        printf("    %-20s 0x%jx\n", "e_shentsize", (uintmax_t)ehdr.e_shentsize);

        printf("\n");

        }

        // Check whether or not this is an ELF file for the ZipCPU ...

        if (ehdr.e_machine != 0x0dad1) {

                fprintf(stderr, "This is not a ZipCPU/8 ELF file\n");

                exit(EXIT_FAILURE);

        }

        // Get our entry address

        entry = ehdr.e_entry;

        // Now, let's go look at the program header

        if (elf_getphdrnum(e, &n) != 0) {

                fprintf(stderr, "elf_getphdrnum() failed: %s\n", elf_errmsg(-1));

                exit(EXIT_FAILURE);

        }

assert(n != 0);

        unsigned total_octets = 0, current_offset=0, current_section=0;

        for(i=0; i<(int)n; i++) {

                total_octets += sizeof(ELFSECTION *)+sizeof(ELFSECTION);

                if (gelf_getphdr(e, i, &phdr) != &phdr) {

                        fprintf(stderr, "getphdr() failed: %s\n", elf_errmsg(-1));

                        exit(EXIT_FAILURE);

                }

                if (dbg) {

                printf("    %-20s 0x%x\n", "p_type",   phdr.p_type);

                printf("    %-20s 0x%jx\n", "p_offset", phdr.p_offset);

                printf("    %-20s 0x%jx\n", "p_vaddr",  phdr.p_vaddr);

                printf("    %-20s 0x%jx\n", "p_paddr",  phdr.p_paddr);

                printf("    %-20s 0x%jx\n", "p_filesz", phdr.p_filesz);

                printf("    %-20s 0x%jx\n", "p_memsz",  phdr.p_memsz);

                printf("    %-20s 0x%x [", "p_flags",  phdr.p_flags);

                if (phdr.p_flags & PF_X)        printf(" Execute");

                if (phdr.p_flags & PF_R)        printf(" Read");

                if (phdr.p_flags & PF_W)        printf(" Write");

                printf("]\n");

                printf("    %-20s 0x%jx\n", "p_align", phdr.p_align);

                }

                total_octets += phdr.p_memsz;

        }

        char    *d = (char *)malloc(total_octets + sizeof(ELFSECTION)+sizeof(ELFSECTION *));

        memset(d, 0, total_octets);

        ELFSECTION **r = sections = (ELFSECTION **)d;

        current_offset = (n+1)*sizeof(ELFSECTION *);

        current_section = 0;

        for(i=0; i<(int)n; i++) {

                r[i] = (ELFSECTION *)(&d[current_offset]);

                if (gelf_getphdr(e, i, &phdr) != &phdr) {

                        fprintf(stderr, "getphdr() failed: %s\n", elf_errmsg(-1));

                        exit(EXIT_FAILURE);

                }

                if (dbg) {

                printf("    %-20s 0x%jx\n", "p_offset", phdr.p_offset);

                printf("    %-20s 0x%jx\n", "p_vaddr",  phdr.p_vaddr);

                printf("    %-20s 0x%jx\n", "p_paddr",  phdr.p_paddr);

                printf("    %-20s 0x%jx\n", "p_filesz", phdr.p_filesz);

                printf("    %-20s 0x%jx\n", "p_memsz",  phdr.p_memsz);

                printf("    %-20s 0x%x [", "p_flags",  phdr.p_flags);

                if (phdr.p_flags & PF_X)        printf(" Execute");

                if (phdr.p_flags & PF_R)        printf(" Read");

                if (phdr.p_flags & PF_W)        printf(" Write");

                printf("]\n");

                printf("    %-20s 0x%jx\n", "p_align", phdr.p_align);

                }

                current_section++;

                r[i]->m_start = phdr.p_paddr;

                r[i]->m_len   = phdr.p_filesz;

                current_offset += phdr.p_memsz + sizeof(ELFSECTION);

                // Now, let's read in our section ...

                if (lseek(fd, phdr.p_offset, SEEK_SET) < 0) {

                        fprintf(stderr, "Could not seek to file position %08lx\n", phdr.p_offset);

                        perror("O/S Err:");

                        exit(EXIT_FAILURE);

                } if (phdr.p_filesz > phdr.p_memsz)

                        phdr.p_filesz = 0;

                if (read(fd, r[i]->m_data, phdr.p_filesz) != (int)phdr.p_filesz) {

                        fprintf(stderr, "Didnt read entire section\n");

                        perror("O/S Err:");

                        exit(EXIT_FAILURE);

                }

                /*

                // Next, we need to byte swap it from big to little endian

                for(unsigned j=0; j<r[i]->m_len; j++)

                        r[i]->m_data[j] = byteswap(r[i]->m_data[j]);

                */

                if (dbg) for(unsigned j=0; j<r[i]->m_len; j++)

                        fprintf(stderr, "ADR[%04x] = %02x\n", r[i]->m_start+j,

                                r[i]->m_data[j] & 0x0ff);

        }

        r[i] = (ELFSECTION *)(&d[current_offset]);

        r[current_section]->m_start = 0;

        r[current_section]->m_len   = 0;

        elf_end(e);

        close(fd);

}