libc: shebang handling for execve

Fixes #3545
This commit is contained in:
Norman Feske 2019-10-29 18:11:09 +01:00 committed by Christian Helmuth
parent 636e0f6444
commit 8c44b17e86

View File

@ -14,11 +14,13 @@
/* Genode includes */ /* Genode includes */
#include <base/shared_object.h> #include <base/shared_object.h>
#include <base/log.h> #include <base/log.h>
#include <base/attached_rom_dataspace.h>
/* libc includes */ /* libc includes */
#include <unistd.h> #include <unistd.h>
#include <stdlib.h> #include <stdlib.h>
#include <errno.h> #include <errno.h>
#include <string.h>
#include <libc/allocator.h> #include <libc/allocator.h>
/* libc-internal includes */ /* libc-internal includes */
@ -31,7 +33,171 @@ using namespace Genode;
typedef int (*main_fn_ptr) (int, char **, char **); typedef int (*main_fn_ptr) (int, char **, char **);
namespace Libc { struct String_array; } namespace Libc {
struct Interpreter;
struct String_array;
}
struct Libc::Interpreter
{
Attached_rom_dataspace _rom;
char **args = { nullptr };
/**
* Return true if file content starts with the specified C string
*/
bool _content_starts_with(char const *prefix) const
{
size_t const prefix_len = ::strlen(prefix);
if (prefix_len > _rom.size())
return false;
return strncmp(prefix, _rom.local_addr<char const>(), prefix_len) == 0;
}
bool script() const { return _content_starts_with("#!"); }
bool elf_executable() const { return _content_starts_with("\x7f" "ELF"); }
struct Arg
{
/* pointer to first character */
char const * const ptr;
/* number of characters */
size_t const length;
};
struct Constrained_ptr
{
char const *ptr;
size_t remaining_bytes;
/**
* Skip characters for which 'condition' is true
*/
template <typename COND>
void _skip(COND const &condition)
{
while (remaining_bytes > 0 && condition(*ptr)) {
ptr++;
remaining_bytes--;
}
}
void skip_non_whitespace() { _skip([] (char c) { return !is_whitespace(c); }); };
void skip_whitespace() { _skip([] (char c) { return is_whitespace(c); }); };
void skip_shebang()
{
_skip([] (char c) { return c == '#'; });
_skip([] (char c) { return c == '!'; });
}
bool valid() const { return ptr && *ptr && *ptr != '\n' && remaining_bytes; }
};
template <typename FN>
void _for_each_arg(FN const &fn) const
{
if (!script())
return;
Constrained_ptr ptr { _rom.local_addr<char const>(), _rom.size() };
ptr.skip_shebang();
/* skip whitespace between shebang and interpreter */
ptr.skip_whitespace();
/* skip path to interpreter */
ptr.skip_non_whitespace();
while (ptr.valid()) {
/* skip whitespace before argument */
ptr.skip_whitespace();
/* find end of argument */
char const * const arg_ptr = ptr.ptr;
unsigned const orig_remaining_bytes = ptr.remaining_bytes;
ptr.skip_non_whitespace();
size_t const length = orig_remaining_bytes - ptr.remaining_bytes;
if (length)
fn(Arg { arg_ptr, length });
}
}
typedef String<Vfs::MAX_PATH_LEN> Path;
Path path() const
{
if (!script())
return Path();
Constrained_ptr ptr { _rom.local_addr<char const>(), _rom.size() };
ptr.skip_shebang();
ptr.skip_whitespace();
/* find end of interpreter path */
char const * const path_ptr = ptr.ptr;
unsigned const orig_remaining_bytes = ptr.remaining_bytes;
ptr.skip_non_whitespace();
size_t const length = orig_remaining_bytes - ptr.remaining_bytes;
return Path(Cstring(path_ptr, length));
}
unsigned _count_args() const
{
unsigned count = 0;
_for_each_arg([&] (Arg) { count++; });
return count;
}
unsigned const num_args;
Interpreter(Genode::Env &env, char const * const filename)
:
_rom(env, filename), num_args(_count_args() + 2 /* argv0 + filename */)
{
if (script()) {
args = (char **)malloc(sizeof(char *)*num_args);
unsigned i = 0;
/* argv0 */
args[i++] = strdup(path().string());
_for_each_arg([&] (Arg arg) {
args[i++] = strndup(arg.ptr, arg.length); });
/* supply script file name as last argument */
args[i++] = strdup(filename);
}
}
~Interpreter()
{
if (script()) {
for (unsigned i = 0; i < num_args; i++)
free(args[i]);
free(args);
}
}
};
/** /**
@ -85,30 +251,48 @@ struct Libc::String_array : Noncopyable
Constructible<Buffer> _buffer { }; Constructible<Buffer> _buffer { };
String_array(Allocator &alloc, char const * const * const src_array) String_array(Allocator &alloc,
char const * const * const src_array_1,
char const * const * const src_array_2 = nullptr)
: :
_alloc(alloc), count(_num_entries(src_array)) _alloc(alloc),
/* if 'src_array_2' is supplied, we skip its first element (argv0) */
count(_num_entries(src_array_1) + _num_entries(src_array_2) -
(src_array_2 ? 1 : 0))
{ {
/* marshal array strings to buffer */ /* marshal array strings to buffer */
size_t size = 1024; size_t size = 1024;
for (;;) { for (;;) {
_buffer.construct(alloc, size); _buffer.construct(_alloc, size);
unsigned i = 0; unsigned dst_i = 0; /* index into destination array */
for (i = 0; i < count; i++) {
array[i] = _buffer->pos_ptr(); auto try_append_entries = [&] (char const * const * const src_array,
unsigned skip = 0)
{
if (!src_array)
return;
size_t const n = _num_entries(src_array);
for (unsigned i = skip; i < n; i++) {
array[dst_i++] = _buffer->pos_ptr();
if (!_buffer->try_append(src_array[i])) if (!_buffer->try_append(src_array[i]))
break; break;
} }
};
bool const done = (i == count); try_append_entries(src_array_1);
try_append_entries(src_array_2, 1); /* skip old argv0 */
bool const done = (dst_i == count);
if (done) { if (done) {
array[i] = nullptr; array[dst_i] = nullptr;
break; break;
} }
warning("env buffer ", size, " too small"); warning("string-array buffer ", size, " exceeded");
size += 1024; size += 1024;
} }
} }
@ -162,20 +346,59 @@ extern "C" int execve(char const *filename,
return Libc::Errno(EACCES); return Libc::Errno(EACCES);
} }
Libc::Absolute_path resolved_path;
try {
Libc::resolve_symlinks(filename, resolved_path); }
catch (Libc::Symlink_resolve_error) {
warning("execve: ", filename, " does not exist");
return Libc::Errno(ENOENT); }
/* capture environment variables and args to libc-internal heap */ /* capture environment variables and args to libc-internal heap */
Libc::String_array *saved_env_vars = Libc::String_array *saved_env_vars =
new (*_alloc_ptr) Libc::String_array(*_alloc_ptr, envp); new (*_alloc_ptr) Libc::String_array(*_alloc_ptr, envp);
/*
* Resolve path of the executable and handle shebang arguments
*/
Libc::Absolute_path resolved_path;
Libc::Interpreter::Path path(filename);
Libc::String_array *saved_args = Libc::String_array *saved_args =
new (*_alloc_ptr) Libc::String_array(*_alloc_ptr, argv); new (*_alloc_ptr) Libc::String_array(*_alloc_ptr, argv);
enum { MAX_INTERPRETER_NESTING_LEVELS = 4 };
for (unsigned i = 0; i < MAX_INTERPRETER_NESTING_LEVELS; i++) {
try {
Libc::resolve_symlinks(path.string(), resolved_path); }
catch (Libc::Symlink_resolve_error) {
warning("execve: executable binary does not exist");
return Libc::Errno(ENOENT);
}
Constructible<Libc::Interpreter> interpreter { };
try {
interpreter.construct(*_env_ptr, resolved_path.string()); }
catch (...) {
warning("execve: executable binary inaccessible as ROM module");
return Libc::Errno(ENOENT);
}
if (interpreter->elf_executable())
break;
if (!interpreter->script()) {
warning("invalid executable binary format: ", resolved_path.string());
return Libc::Errno(ENOEXEC);
}
path = interpreter->path();
/* concatenate shebang args with command-line args */
Libc::String_array * const orig_saved_args = saved_args;
saved_args = new (*_alloc_ptr)
Libc::String_array(*_alloc_ptr, interpreter->args, argv);
destroy(*_alloc_ptr, orig_saved_args);
}
try { try {
_main_ptr = Dynamic_linker::respawn<main_fn_ptr>(*_env_ptr, resolved_path.string(), "main"); _main_ptr = Dynamic_linker::respawn<main_fn_ptr>(*_env_ptr, resolved_path.string(), "main");
} }