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c - How to get instruction information from libopcodes?

I am writing a tool which uses libbfd and libopcodes in x86-32 and x86-64 Linux to perform disassembly. The problem is that whilst I am able to get libopcodes to disassemble, I am unable to get any instruction information. For the purposes of demonstration, I have made a minimal example which reproduces my issue. The program should disassemble itself from entry point to the first RET/RETQ.

The code is a bit hacked up with globals and error checking has been omitted for brevity, etc. but should illustrate the issue clearly.

#include <bfd.h>
#include <dis-asm.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <sys/types.h>
#include <string.h>
#include <ctype.h>
#include <limits.h>
#include <libiberty.h>

/*
 * Holds state for BFD and libopcodes.
 */
bfd *        abfd  = NULL;
disassemble_info dinfo = {0};

/*
 * Temporary hack to signal when disassembling should stop.
 */
static bool stop_disassembling = FALSE;

/*
 * Gets path to currently running executable.
 */
bool get_target_path(char * target_path, size_t size)
{
    char *   path;
    ssize_t len;

    pid_t pid = getpid();
    sprintf(target_path, "/proc/%d/exe", (int)pid );

    path = strdup(target_path);
    len  = readlink(path, target_path, size);

    target_path[len] = '';
    free(path);
    return TRUE;
}

/*
 * libopcodes appends spaces on the end of some instructions so for
 * comparisons, we want to strip those first.
 */
void strip_tail(char * str, unsigned int size)
{
    int i;
    for(i = 0; i < size; i++) {
        if(!isgraph(str[i])) {
            str[i] = '';
            break;
        }
    }
}

/*
 * Checks whether the current instruction will cause the control flow to not
 * proceed to the linearly subsequent instruction (e.g. ret, jmp, etc.)
 */
bool breaks_control_flow(char * str)
{
    if(abfd->arch_info->bits_per_address == 64) {
        if(strcmp(str, "retq") == 0) {
            return TRUE;
        }
    } else {
        if(strcmp(str, "ret") == 0) {
            return TRUE;
        }
    }

    return FALSE;
}

/*
 * Used as a callback for libopcodes so we can do something useful with the
 * disassembly. Currently this just outputs to stdout.
 */
int custom_fprintf(void * stream, const char * format, ...)
{
    /* silly amount */
    char    str[128] = {0};
    int rv;
    va_list args;

    va_start(args, format);
    rv = vsnprintf(str, ARRAY_SIZE(str) - 1, format, args);
    va_end(args);

    puts(str);
    strip_tail(str, ARRAY_SIZE(str));

    if(breaks_control_flow(str)) {
        puts("Stopped disassembly");
        stop_disassembling = TRUE;
    }

    if(dinfo.insn_info_valid) {
        switch(dinfo.insn_type) {
            case dis_noninsn:
                printf("not an instruction
");
                break;
            case dis_nonbranch:
                printf("not a branch
");
                break;
            case dis_branch:
                printf("is a branch
");
                break;
            case dis_condbranch:
                printf("is a conditional branch
");
                break;
            case dis_jsr:
                printf("jump to subroutine
");
                break;
            case dis_condjsr:
                printf("conditional jump to subroutine
");
                break;
            case dis_dref:
                printf("data reference in instruction
");
                break;
            case dis_dref2:
                printf("two data references in instruction
");
                break;
            default:
                printf("not enumerated
");
                break;
        }
    } else {
        printf("insn_info not valid
");
    }

    return rv;
}

/*
 * Initialises libopcodes disassembler and returns an instance of it.
 */
disassembler_ftype init_disasm(bfd * abfd, disassemble_info * dinfo)
{
    /* Override the stream the disassembler outputs to */
    init_disassemble_info(dinfo, NULL, custom_fprintf);
    dinfo->flavour = bfd_get_flavour(abfd);
    dinfo->arch    = bfd_get_arch(abfd);
    dinfo->mach    = bfd_get_mach(abfd);
    dinfo->endian  = abfd->xvec->byteorder;
    disassemble_init_for_target(dinfo);

    return disassembler(abfd);
}

/*
 * Method of locating section from VMA taken from opdis.
 */
typedef struct {
    bfd_vma    vma;
    asection * sec;
} BFD_VMA_SECTION;

/*
 * Loads section and fills in dinfo accordingly. Since this function allocates
 * memory in dinfo->buffer, callers need to call free once they are finished.
 */
bool load_section(bfd * abfd, disassemble_info * dinfo, asection * s)
{
    int     size = bfd_section_size(s->owner, s);
    unsigned char * buf  = xmalloc(size);

    if(!bfd_get_section_contents(s->owner, s, buf, 0, size)) {
        free(buf);
        return FALSE;
    }

    dinfo->section       = s;
    dinfo->buffer        = buf;
    dinfo->buffer_length = size;
    dinfo->buffer_vma    = bfd_section_vma(s->owner, s);

    printf("Allocated %d bytes for %s section
: 0x%lX", size, s->name,
            dinfo->buffer_vma);
    return TRUE;
}

/*
 * Used to locate section for a vma.
 */
void vma_in_section(bfd * abfd, asection * s, void * data)
{
    BFD_VMA_SECTION * req = data;

    if(req && req->vma >= s->vma &&
    req->vma < (s->vma + bfd_section_size(abfd, s)) ) {
        req->sec = s;
    }
}

/*
 * Locate and load section containing vma.
 */
bool load_section_for_vma(bfd * abfd, disassemble_info * dinfo,
        bfd_vma vma)
{
    BFD_VMA_SECTION req = {vma, NULL};
    bfd_map_over_sections(abfd, vma_in_section, &req);

    if(!req.sec) {
        return FALSE;
    } else {
        return load_section(abfd, dinfo, req.sec);
    }
}

/*
 * Start disassembling from entry point.
 */
bool disassemble_entry(bfd * abfd, disassemble_info * dinfo,
        disassembler_ftype disassembler)
{
    bfd_vma    vma = bfd_get_start_address(abfd);

    /* First locate and load the section containing the vma */
    if(load_section_for_vma(abfd, dinfo, vma)) {
        int size;

        /* Keep disassembling until signalled otherwise or error */
        while(true) {
            dinfo->insn_info_valid = 0;
            size = disassembler(vma, dinfo);
            printf("Disassembled %d bytes at 0x%lX
", size, vma);

            if(size == 0 || size == -1 || stop_disassembling) {
                break;
            }

            vma += size;
        }

        free(dinfo->buffer);
        return TRUE;
    }

    return FALSE;
}

int main(void)
{
    char  target_path[PATH_MAX] = {0};

    bfd_init();

    /* Get path for the running instance of this program */
    get_target_path(target_path, ARRAY_SIZE(target_path));

    abfd = bfd_openr(target_path, NULL);

    if(abfd != NULL && bfd_check_format(abfd, bfd_object)) {
        disassembler_ftype disassembler = init_disasm(abfd, &dinfo);

        disassemble_entry(abfd, &dinfo, disassembler);

        bfd_close(abfd);
    }

    return EXIT_SUCCESS;
}

This source can be built with the following makefile. To perform a successful link, the binutils-dev package needs to be installed on the local machine:

all:
    gcc -Wall disasm.c -o disasm -lbfd -lopcodes

clean:
    rm -f disasm

When run, the output is this:

Allocated 2216 bytes for .text section
: 0x400BF0xor    
insn_info not valid
%ebp
insn_info not valid
,
insn_info not valid
%ebp
insn_info not valid
Disassembled 2 bytes at 0x400BF0
mov    
insn_info not valid
%rdx
insn_info not valid
,
insn_info not valid
%r9
insn_info not valid
Disassembled 3 bytes at 0x400BF2
pop    
insn_info not valid
%rsi
insn_info not valid
Disassembled 1 bytes at 0x400BF5
mov    
insn_info not valid
%rsp
insn_info not valid
,
insn_info not valid
%rdx
insn_info not valid
Disassembled 3 bytes at 0x400BF6
and    
insn_info not valid
$0xfffffffffffffff0
insn_info not valid
,
insn_info not valid
%rsp
insn_info not valid
Disassembled 4 bytes at 0x400BF9
push   
insn_info not valid
%rax
insn_info not valid
Disassembled 1 bytes at 0x400BFD
push   
insn_info not valid
%rsp
insn_info not valid
Disassembled 1 bytes at 0x400BFE
mov    
insn_info not valid
$0x401450
insn_info not valid
,
insn_info not valid
%r8
insn_info not valid
Disassembled 7 bytes at 0x400BFF
mov    
insn_info not valid
$0x4013c0
insn_info not valid
,
insn_info not valid
%rcx
insn_info not valid
Disassembled 7 bytes at 0x400C06
mov    
insn_info not valid
$0x4012ce
insn_info not valid
,
insn_info not valid
%rdi
insn_info not valid
Disassembled 7 bytes at 0x400C0D
callq  
insn_info not valid
0x0000000000400ad8
insn_info not valid
Disassembled 5 bytes at 0x400C14
hlt    
insn_info not valid
Disassembled 1 bytes at 0x400C19
nop
insn_info not valid
Disassembled 1 bytes at 0x400C1A
nop
insn_info not valid
Disassembled 1 bytes at 0x400C1B
sub    
insn_info not valid
$0x8
insn_info not valid
,
insn_info not valid
%rsp
insn_info not valid
Disassembled 4 bytes at 0x400C1C
mov    
insn_info not valid
0x2013b9(%rip)
insn_info not valid
,
insn_info not valid
%rax
insn_info not valid
        # 
insn_info not valid
0x0000000000601fe0
insn_info not valid
Disassembled 7 bytes at 0x400C20
test   
insn_info not valid
%rax
insn_info not valid
,
insn_info not valid
%rax
insn_info not valid
Disassembled 3 bytes at 0x400C27
je     
insn_info not valid
0x0000000000400c2e
insn_info not valid
Disassembled 2 bytes at 0x400C2A
callq  
insn_info not valid
*%rax
insn_info not valid
Disassembled 2 bytes at 0x400C2C
add    
insn_info not valid
$0x8
insn_info not valid
,
insn_info not valid
%rsp
insn_info not valid
Disassembled 4 bytes at 0x400C2E
retq   
Stopped disassembly
insn_info not valid
Disassembled 1 bytes at 0x400C32

What I am expecting is to be able to read instruction information for each instruction through the dinfo->insn_type, target, etc. The behaviour is exhibited on both x86-32 and x86-64. If I can at least get confirmation that this is unimplemented on these two architectures then I can go about filling in this information myself.

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Unfortunately, as of binutils libopcodes 2.22, insn_type is not filled in on either i386 or x86_64. The only widespread supported architectures are MIPS, Sparc, and the Cell’s SPU. This is still true as of current CVS HEAD.

It's hard to prove that something does not exist, but for instance, in the Sparc disassembler source you can see several occurrences of insn_type being set, for instance info->insn_type = dis_branch, whereas in the i386 disassembler source there are no occurrences of insn_type nor any of the values it would be expected to have (dis_branch, dis_nonbranch etc.).

Checking for all the libopcodes files that support insn_type you get:

  • opcodes/mips-dis.c
  • opcodes/spu-dis.c
  • opcodes/microblaze-dis.c
  • opcodes/cris-dis.c
  • opcodes/sparc-dis.c
  • opcodes/mmix-dis.c

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