radare2/libr/core/cfile.c

934 lines
26 KiB
C

/* radare - LGPL - Copyright 2009-2020 - pancake */
#include <r_core.h>
#include <stdlib.h>
#include <string.h>
#define UPDATE_TIME(a) (r->times->file_open_time = r_time_now_mono () - (a))
static int r_core_file_do_load_for_debug(RCore *r, ut64 loadaddr, const char *filenameuri);
static int r_core_file_do_load_for_io_plugin(RCore *r, ut64 baseaddr, ut64 loadaddr);
static bool close_but_cb(void *user, void *data, ut32 id) {
RCore *core = (RCore *)user;
RIODesc *desc = (RIODesc *)data;
if (core && desc && core->io->desc) {
if (desc->fd != core->io->desc->fd) {
// TODO: use the API
r_core_cmdf (core, "o-%d", desc->fd);
}
}
return true;
}
// TODO: move to IO as a helper?
R_API bool r_core_file_close_all_but(RCore *core) {
r_id_storage_foreach (core->io->files, close_but_cb, core);
return true;
}
static bool __isMips (RAsm *a) {
return a && a->cur && a->cur->arch && strstr (a->cur->arch, "mips");
}
static void loadGP(RCore *core) {
if (__isMips (core->rasm)) {
ut64 gp = r_num_math (core->num, "loc._gp");
if (!gp || gp == UT64_MAX) {
r_config_set (core->config, "anal.roregs", "zero");
r_core_cmd0 (core, "10aes@entry0");
r_config_set (core->config, "anal.roregs", "zero,gp");
gp = r_reg_getv (core->anal->reg, "gp");
}
// eprintf ("[mips] gp: 0x%08"PFMT64x"\n", gp);
r_config_set_i (core->config, "anal.gp", gp);
}
}
R_API bool r_core_file_reopen(RCore *core, const char *args, int perm, int loadbin) {
int isdebug = r_config_get_i (core->config, "cfg.debug");
char *path;
ut64 laddr = r_config_get_i (core->config, "bin.laddr");
RIODesc *file = NULL;
RIODesc *odesc = core->io ? core->io->desc : NULL;
RBinFile *bf = odesc ? r_bin_file_find_by_fd (core->bin, odesc->fd) : NULL;
char *ofilepath = NULL, *obinfilepath = (bf && bf->file)? strdup (bf->file): NULL;
bool ret = false;
ut64 origoff = core->offset;
if (odesc) {
if (odesc->referer) {
ofilepath = odesc->referer;
} else if (odesc->uri) {
ofilepath = odesc->uri;
}
}
ut64 new_baddr = UT64_MAX;
if (args) {
new_baddr = r_num_math (core->num, args);
if (new_baddr && new_baddr != UT64_MAX) {
r_config_set_i (core->config, "bin.baddr", new_baddr);
} else {
new_baddr = UT64_MAX;
}
}
if (new_baddr == UT64_MAX) {
new_baddr = r_config_get_i (core->config, "bin.baddr");
}
if (r_sandbox_enable (0)) {
eprintf ("Cannot reopen in sandbox\n");
free (obinfilepath);
return false;
}
if (!odesc) {
eprintf ("No file opened to reopen\n");
free (ofilepath);
free (obinfilepath);
return false;
}
int newpid = odesc->fd;
if (isdebug) {
r_debug_kill (core->dbg, core->dbg->pid, core->dbg->tid, 9); // SIGKILL
do {
r_debug_continue (core->dbg);
} while (!r_debug_is_dead (core->dbg));
r_debug_detach (core->dbg, core->dbg->pid);
perm = 7;
} else {
if (!perm) {
perm = 4; //R_PERM_R;
}
}
if (!ofilepath) {
eprintf ("Unknown file path");
free (obinfilepath);
return false;
}
// HACK: move last mapped address to higher place
// XXX - why does this hack work?
// when the new memory maps are created.
path = strdup (ofilepath);
free (obinfilepath);
obinfilepath = strdup (ofilepath);
// r_str_trim (path);
file = r_core_file_open (core, path, perm, laddr);
if (isdebug) {
int newtid = newpid;
// XXX - select the right backend
if (core->io->desc) {
newpid = r_io_fd_get_pid (core->io, core->io->desc->fd);
newtid = r_io_fd_get_tid (core->io, core->io->desc->fd);
#if __linux__
core->dbg->main_pid = newpid;
newtid = newpid;
#endif
}
// Reset previous pid and tid
core->dbg->pid = -1;
core->dbg->tid = -1;
core->dbg->recoil_mode = R_DBG_RECOIL_NONE;
memset (&core->dbg->reason, 0, sizeof (core->dbg->reason));
// Reopen and attach
r_core_setup_debugger (core, "native", true);
r_debug_select (core->dbg, newpid, newtid);
}
if (file) {
bool had_rbin_info = false;
if (odesc && bf) {
if (r_bin_file_delete (core->bin, bf->id)) {
had_rbin_info = true;
}
}
r_io_fd_close (core->io, odesc->fd);
eprintf ("File %s reopened in %s mode\n", path,
(perm & R_PERM_W)? "read-write": "read-only");
if (loadbin && (loadbin == 2 || had_rbin_info)) {
ut64 baddr;
if (isdebug) {
baddr = r_debug_get_baddr (core->dbg, path);
} else if (new_baddr != UT64_MAX) {
baddr = new_baddr;
} else {
baddr = r_config_get_i (core->config, "bin.baddr");
}
ret = r_core_bin_load (core, obinfilepath, baddr);
r_core_bin_update_arch_bits (core);
if (!ret) {
eprintf ("Error: Failed to reload rbin for: %s", path);
}
origoff = r_num_math (core->num, "entry0");
}
if (core->bin->cur && core->io && r_io_desc_get (core->io, file->fd) && !loadbin) {
//force here NULL because is causing uaf look this better in future XXX @alvarofe
core->bin->cur = NULL;
}
// close old file
} else if (odesc) {
eprintf ("r_core_file_reopen: Cannot reopen file: %s with perms 0x%x,"
" attempting to open read-only.\n", path, perm);
// lower it down back
//ofile = r_core_file_open (core, path, R_PERM_R, addr);
} else {
eprintf ("Cannot reopen\n");
}
if (core->io->desc) {
core->switch_file_view = 1;
r_core_block_read (core);
}
r_core_seek (core, origoff, true);
if (isdebug) {
r_core_cmd0 (core, ".dm*");
r_core_cmd0 (core, ".dr*");
r_core_cmd0 (core, "sr PC");
} else {
loadGP (core);
}
// update anal io bind
r_io_bind (core->io, &(core->anal->iob));
if (core->io->desc && core->io->desc->fd >= 0) {
r_core_cmd0 (core, "o-!");
}
r_core_file_close_all_but (core);
// This is done to ensure that the file is correctly
// loaded into the view
free (obinfilepath);
//free (ofilepath);
// causes double free . dont free file here // R_FREE (file);
free (path);
return ret;
}
R_API void r_core_sysenv_end(RCore *core, const char *cmd) {
// TODO: remove tmpfilez
if (strstr (cmd, "R2_BLOCK")) {
// remove temporary BLOCK file
char *f = r_sys_getenv ("R2_BLOCK");
if (f) {
r_file_rm (f);
r_sys_setenv ("R2_BLOCK", NULL);
free (f);
}
}
r_sys_setenv ("R2_FILE", NULL);
r_sys_setenv ("R2_BYTES", NULL);
r_sys_setenv ("R2_OFFSET", NULL);
// remove temporary R2_CONFIG file
char *r2_config = r_sys_getenv ("R2_CONFIG");
if (r2_config) {
r_file_rm (r2_config);
r_sys_setenv ("R2_CONFIG", NULL);
free (r2_config);
}
}
R_API char *r_core_sysenv_begin(RCore * core, const char *cmd) {
char *f, *ret = cmd? strdup (cmd): NULL;
RIODesc *desc = core->io->desc;
if (cmd && strstr (cmd, "R2_BYTES")) {
char *s = r_hex_bin2strdup (core->block, core->blocksize);
r_sys_setenv ("R2_BYTES", s);
free (s);
}
r_sys_setenv ("RABIN2_PDBSERVER", r_config_get (core->config, "pdb.server"));
if (desc && desc->name) {
r_sys_setenv ("R2_FILE", desc->name);
r_sys_setenv ("R2_SIZE", sdb_fmt ("%"PFMT64d, r_io_desc_size (desc)));
if (cmd && strstr (cmd, "R2_BLOCK")) {
// replace BLOCK in RET string
if ((f = r_file_temp ("r2block"))) {
if (r_file_dump (f, core->block, core->blocksize, 0)) {
r_sys_setenv ("R2_BLOCK", f);
}
free (f);
}
}
}
r_sys_setenv ("R2_OFFSET", sdb_fmt ("%"PFMT64d, core->offset));
r_sys_setenv ("R2_XOFFSET", sdb_fmt ("0x%08"PFMT64x, core->offset));
r_sys_setenv ("R2_ENDIAN", core->rasm->big_endian? "big": "little");
r_sys_setenv ("R2_BSIZE", sdb_fmt ("%d", core->blocksize));
// dump current config file so other r2 tools can use the same options
char *config_sdb_path = NULL;
int config_sdb_fd = r_file_mkstemp (NULL, &config_sdb_path);
if (config_sdb_fd >= 0) {
close (config_sdb_fd);
}
Sdb *config_sdb = sdb_new (NULL, config_sdb_path, 0);
r_config_serialize (core->config, config_sdb);
sdb_sync (config_sdb);
sdb_free (config_sdb);
r_sys_setenv ("R2_CONFIG", config_sdb_path);
r_sys_setenv ("RABIN2_LANG", r_config_get (core->config, "bin.lang"));
r_sys_setenv ("RABIN2_DEMANGLE", r_config_get (core->config, "bin.demangle"));
r_sys_setenv ("R2_ARCH", r_config_get (core->config, "asm.arch"));
r_sys_setenv ("R2_BITS", sdb_fmt ("%"PFMT64u, r_config_get_i (core->config, "asm.bits")));
r_sys_setenv ("R2_COLOR", r_config_get_i (core->config, "scr.color")? "1": "0");
r_sys_setenv ("R2_DEBUG", r_config_get_i (core->config, "cfg.debug")? "1": "0");
r_sys_setenv ("R2_IOVA", r_config_get_i (core->config, "io.va")? "1": "0");
free (config_sdb_path);
return ret;
}
#if !__linux__ && !__WINDOWS__
static ut64 get_base_from_maps(RCore *core, const char *file) {
RDebugMap *map;
RListIter *iter;
ut64 b = 0LL;
r_debug_map_sync (core->dbg); // update process memory maps
r_list_foreach (core->dbg->maps, iter, map) {
if ((map->perm & 5) == 5) {
// TODO: make this more flexible
// XXX - why "copy/" here?
if (map->name && strstr (map->name, "copy/")) {
return map->addr;
}
if (map->file && !strcmp (map->file, file)) {
return map->addr;
}
if (map->name && !strcmp (map->name, file)) {
return map->addr;
}
// XXX - Commented out, as this could unexpected results
//b = map->addr;
}
}
// fallback resolution copied from cmd_debug.c:r_debug_get_baddr
r_list_foreach (core->dbg->maps, iter, map) {
if (map->perm == 5) { // r-x
return map->addr;
}
}
return b;
}
#endif
#if __linux__ || __APPLE__
static bool setbpint(RCore *r, const char *mode, const char *sym) {
RBreakpointItem *bp;
RFlagItem *fi = r_flag_get (r->flags, sym);
if (!fi) {
return false;
}
bp = r_bp_add_sw (r->dbg->bp, fi->offset, 1, R_BP_PROT_EXEC);
if (bp) {
bp->internal = true;
#if __linux__
bp->data = r_str_newf ("?e %s: %s", mode, sym);
#else
bp->data = r_str_newf ("?e %s: %s;ps@rdi", mode, sym);
#endif
return true;
}
eprintf ("Cannot set breakpoint at %s\n", sym);
return false;
}
#endif
// XXX - need to handle index selection during debugging
static int r_core_file_do_load_for_debug(RCore *r, ut64 baseaddr, const char *filenameuri) {
RIODesc *desc = r->io->desc;
RBinFile *binfile = NULL;
RBinPlugin *plugin;
int xtr_idx = 0; // if 0, load all if xtr is used
// TODO : Honor file.path eval var too?
if (!strncmp ("dbg://", filenameuri, 6)) {
filenameuri += 6;
}
if (!desc) {
return false;
}
int fd = desc->fd;
r_debug_select (r->dbg, r_io_fd_get_pid (r->io, fd),
r_io_fd_get_tid (r->io, fd));
#if !__linux__
#if !__WINDOWS__
baseaddr = get_base_from_maps (r, filenameuri);
#endif
if (baseaddr != UT64_MAX) {
r_config_set_i (r->config, "bin.baddr", baseaddr);
}
#endif
RBinOptions opt;
r_bin_options_init (&opt, fd, baseaddr, UT64_MAX, false);
opt.xtr_idx = xtr_idx;
if (!r_bin_open (r->bin, filenameuri, &opt)) {
eprintf ("RBinLoad: Cannot open %s\n", filenameuri);
if (r_config_get_i (r->config, "bin.rawstr")) {
r_bin_options_init (&opt, fd, baseaddr, UT64_MAX, true);
opt.xtr_idx = xtr_idx;
if (!r_bin_open (r->bin, filenameuri, &opt)) {
return false;
}
}
}
if (*r_config_get (r->config, "dbg.libs")) {
r_core_cmd0 (r, ".dmm*");
#if __linux__
setbpint (r, "dbg.libs", "sym.imp.dlopen");
setbpint (r, "dbg.libs", "sym.imp.dlmopen");
setbpint (r, "dbg.unlibs", "sym.imp.dlclose");
#elif __APPLE__
setbpint (r, "dbg.libs", "sym._dlopen");
setbpint (r, "dbg.libs", "sym._dlclose");
#endif
}
binfile = r_bin_cur (r->bin);
r_core_bin_set_env (r, binfile);
plugin = r_bin_file_cur_plugin (binfile);
if (plugin && !strcmp (plugin->name, "any")) {
// set use of raw strings
// r_config_set_i (r->config, "io.va", false);
//\\ r_config_set (r->config, "bin.rawstr", "true");
// get bin.minstr
r->bin->minstrlen = r_config_get_i (r->config, "bin.minstr");
r->bin->maxstrbuf = r_config_get_i (r->config, "bin.maxstrbuf");
} else if (binfile) {
RBinObject *obj = r_bin_cur_object (r->bin);
RBinInfo *info = obj? obj->info: NULL;
if (plugin && info) {
r_core_bin_set_arch_bits (r, binfile->file, info->arch, info->bits);
}
}
if (plugin && !strcmp (plugin->name, "dex")) {
r_core_cmd0 (r, "\"(fix-dex,wx `ph sha1 $s-32 @32` @12 ; wx `ph adler32 $s-12 @12` @8)\"\n");
}
return true;
}
static int r_core_file_do_load_for_io_plugin(RCore *r, ut64 baseaddr, ut64 loadaddr) {
RIODesc *cd = r->io->desc;
int fd = cd ? cd->fd : -1;
RBinFile *binfile = NULL;
int xtr_idx = 0; // if 0, load all if xtr is used
RBinPlugin *plugin;
if (fd < 0) {
return false;
}
r_io_use_fd (r->io, fd);
RBinOptions opt;
r_bin_options_init (&opt, fd, baseaddr, loadaddr, r->bin->rawstr);
opt.xtr_idx = xtr_idx;
if (!r_bin_open_io (r->bin, &opt)) {
//eprintf ("Failed to load the bin with an IO Plugin.\n");
return false;
}
binfile = r_bin_cur (r->bin);
if (r_core_bin_set_env (r, binfile)) {
if (!r->anal->sdb_cc->path) {
R_LOG_WARN ("No calling convention defined for this file, analysis may be inaccurate.\n");
}
}
plugin = r_bin_file_cur_plugin (binfile);
if (plugin && !strcmp (plugin->name, "any")) {
RBinObject *obj = r_bin_cur_object (r->bin);
RBinInfo *info = obj? obj->info: NULL;
if (!info) {
return false;
}
info->bits = r->rasm->bits;
// set use of raw strings
r_core_bin_set_arch_bits (r, binfile->file, info->arch, info->bits);
// r_config_set_i (r->config, "io.va", false);
// r_config_set (r->config, "bin.rawstr", "true");
// get bin.minstr
r->bin->minstrlen = r_config_get_i (r->config, "bin.minstr");
r->bin->maxstrbuf = r_config_get_i (r->config, "bin.maxstrbuf");
} else if (binfile) {
RBinObject *obj = r_bin_cur_object (r->bin);
RBinInfo *info = obj? obj->info: NULL;
if (!info) {
return false;
}
if (plugin) {
r_core_bin_set_arch_bits (r, binfile->file,
info->arch, info->bits);
}
}
if (plugin && !strcmp (plugin->name, "dex")) {
r_core_cmd0 (r, "\"(fix-dex,wx `ph sha1 $s-32 @32` @12 ; wx `ph adler32 $s-12 @12` @8)\"\n");
}
return true;
}
static bool try_loadlib(RCore *core, const char *lib, ut64 addr) {
void *p = r_core_file_open (core, lib, 0, addr);
if (p) {
r_core_bin_load (core, lib, addr);
R_FREE (p);
return true;
}
return false;
}
R_API bool r_core_file_loadlib(RCore *core, const char *lib, ut64 libaddr) {
const char *dirlibs = r_config_get (core->config, "dir.libs");
bool free_libdir = true;
#ifdef __WINDOWS__
char *libdir = r_str_r2_prefix (R2_LIBDIR);
#else
char *libdir = strdup (R2_LIBDIR);
#endif
if (!libdir) {
libdir = R2_LIBDIR;
free_libdir = false;
}
if (!dirlibs || !*dirlibs) {
dirlibs = "." R_SYS_DIR;
}
const char *ldlibrarypath[] = {
dirlibs,
libdir,
#ifndef __WINDOWS__
"/usr/local/lib",
"/usr/lib",
"/lib",
#endif
"." R_SYS_DIR,
NULL
};
const char * *libpath = (const char * *) &ldlibrarypath;
bool ret = false;
#ifdef __WINDOWS__
if (strlen (lib) >= 3 && lib[1] == ':' && lib[2] == '\\') {
#else
if (*lib == '/') {
#endif
if (try_loadlib (core, lib, libaddr)) {
ret = true;
}
} else {
while (*libpath) {
char *s = r_str_newf ("%s" R_SYS_DIR "%s", *libpath, lib);
if (try_loadlib (core, s, libaddr)) {
ret = true;
}
free (s);
if (ret) {
break;
}
libpath++;
}
}
if (free_libdir) {
free (libdir);
}
return ret;
}
R_API int r_core_bin_rebase(RCore *core, ut64 baddr) {
if (!core || !core->bin || !core->bin->cur) {
return 0;
}
if (baddr == UT64_MAX) {
return 0;
}
RBinFile *bf = core->bin->cur;
bf->o->baddr = baddr;
bf->o->loadaddr = baddr;
r_bin_object_set_items (bf, bf->o);
return 1;
}
static void load_scripts_for(RCore *core, const char *name) {
// TODO:
char *file;
RListIter *iter;
char *hdir = r_str_newf (R_JOIN_2_PATHS (R2_HOME_BINRC, "bin-%s"), name);
char *path = r_str_home (hdir);
RList *files = r_sys_dir (path);
if (!r_list_empty (files)) {
eprintf ("[binrc] path: %s\n", path);
}
r_list_foreach (files, iter, file) {
if (*file && *file != '.') {
eprintf ("[binrc] loading %s\n", file);
r_core_cmdf (core, ". %s/%s", path, file);
}
}
r_list_free (files);
free (path);
free (hdir);
}
typedef struct {
const char *name;
bool found;
} RCoreFileData;
static bool filecb(void *user, void *data, ut32 id) {
RCoreFileData *fd = user;
RIODesc *desc = (RIODesc *)data;
if (!strcmp (desc->name, fd->name)) {
fd->found = true;
}
return true;
}
typedef struct {
const char *name;
ut64 addr;
RBin *bin;
} RCoreLinkData;
static bool linkcb(void *user, void *data, ut32 id) {
RCoreLinkData *ld = user;
RIODesc *desc = (RIODesc *)data;
RBinFile *bf = r_bin_file_find_by_fd (ld->bin, desc->fd);
if (bf) {
RListIter *iter;
RBinSymbol *sym;
RList *symbols = r_bin_file_get_symbols (bf);
r_list_foreach (symbols, iter, sym) {
if (!strcmp (sym->name, ld->name)) {
ld->addr = sym->vaddr;
return false;
}
}
}
return true;
}
R_API bool r_core_bin_load(RCore *r, const char *filenameuri, ut64 baddr) {
RIODesc *desc = r->io->desc;
ut64 laddr = r_config_get_i (r->config, "bin.laddr");
RBinFile *binfile = NULL;
RBinPlugin *plugin = NULL;
bool is_io_load;
const char *cmd_load;
if (!desc) {
return false;
}
// NULL deref guard
if (desc) {
is_io_load = desc && desc->plugin;
if (!filenameuri || !*filenameuri) {
filenameuri = desc->name;
}
} else {
is_io_load = false;
}
if (!filenameuri) {
eprintf ("r_core_bin_load: no file specified\n");
return false;
}
r->bin->minstrlen = r_config_get_i (r->config, "bin.minstr");
r->bin->maxstrbuf = r_config_get_i (r->config, "bin.maxstrbuf");
if (is_io_load) {
// TODO? necessary to restore the desc back?
// Fix to select pid before trying to load the binary
if ((desc->plugin && desc->plugin->isdbg) || r_config_get_i (r->config, "cfg.debug")) {
r_core_file_do_load_for_debug (r, baddr, filenameuri);
} else {
r_core_file_do_load_for_io_plugin (r, baddr, 0LL);
}
r_io_use_fd (r->io, desc->fd);
// Restore original desc
}
if (binfile && desc) {
binfile->fd = desc->fd;
}
binfile = r_bin_cur (r->bin);
if (r->bin->cur && r->bin->cur->o && r->bin->cur->o->plugin && r->bin->cur->o->plugin->strfilter) {
char msg[2];
msg[0] = r->bin->cur->o->plugin->strfilter;
msg[1] = 0;
r_config_set (r->config, "bin.str.filter", msg);
}
//r_core_bin_set_env (r, binfile);
plugin = r_bin_file_cur_plugin (binfile);
if (plugin && plugin->name) {
load_scripts_for (r, plugin->name);
}
cmd_load = r_config_get (r->config, "cmd.load");
if (cmd_load && *cmd_load) {
r_core_cmd (r, cmd_load, 0);
}
if (plugin && plugin->name) {
if (!strcmp (plugin->name, "any")) {
if (r_str_startswith (desc->name, "rap") && strstr (desc->name, "://")) {
r_io_map_new (r->io, desc->fd, desc->perm, 0, laddr, UT64_MAX);
} else {
r_io_map_new (r->io, desc->fd, desc->perm, 0, laddr, r_io_desc_size (desc));
}
// set use of raw strings
//r_config_set (r->config, "bin.rawstr", "true");
// r_config_set_i (r->config, "io.va", false);
// get bin.minstr
r->bin->minstrlen = r_config_get_i (r->config, "bin.minstr");
r->bin->maxstrbuf = r_config_get_i (r->config, "bin.maxstrbuf");
} else if (binfile) {
RBinObject *obj = r_bin_cur_object (r->bin);
if (obj) {
bool va = obj->info ? obj->info->has_va : 0;
if (!va) {
r_config_set_i (r->config, "io.va", 0);
}
//workaround to map correctly malloc:// and raw binaries
if (r_io_desc_is_dbg (desc) || (!obj->sections || !va)) {
r_io_map_new (r->io, desc->fd, desc->perm, 0, laddr, r_io_desc_size (desc));
}
RBinInfo *info = obj->info;
if (info) {
r_core_bin_set_arch_bits (r, binfile->file, info->arch, info->bits);
} else {
r_core_bin_set_arch_bits (r, binfile->file,
r_config_get (r->config, "asm.arch"),
r_config_get_i (r->config, "asm.bits"));
}
}
}
} else {
if (desc) {
r_io_map_new (r->io, desc->fd, desc->perm, 0, laddr, r_io_desc_size (desc));
}
if (binfile) {
r_core_bin_set_arch_bits (r, binfile->file,
r_config_get (r->config, "asm.arch"),
r_config_get_i (r->config, "asm.bits"));
}
}
if (desc && r_config_get_i (r->config, "io.exec")) {
desc->perm |= R_PERM_X;
}
if (plugin && plugin->name && !strcmp (plugin->name, "dex")) {
r_core_cmd0 (r, "\"(fix-dex,wx `ph sha1 $s-32 @32` @12 ;"
" wx `ph adler32 $s-12 @12` @8)\"\n");
}
if (!r_config_get_i (r->config, "cfg.debug")) {
loadGP (r);
}
if (r_config_get_i (r->config, "bin.libs")) {
const char *lib;
RListIter *iter;
RList *libs = r_bin_get_libs (r->bin);
r_list_foreach (libs, iter, lib) {
eprintf ("[bin.libs] Opening %s\n", lib);
RCoreFileData filedata = {lib, false};
r_id_storage_foreach (r->io->files, filecb, &filedata);
if (filedata.found) {
eprintf ("Already opened\n");
continue;
}
ut64 baddr = r_io_map_location (r->io, 0x200000);
if (baddr != UT64_MAX) {
r_core_file_loadlib (r, lib, baddr);
}
}
r_core_cmd0 (r, "obb 0;s entry0");
r_config_set_i (r->config, "bin.at", true);
eprintf ("[bin.libs] Linking imports...\n");
RBinImport *imp;
RList *imports = r_bin_get_imports (r->bin);
r_list_foreach (imports, iter, imp) {
// PLT finding
RFlagItem *impsym = r_flag_get (r->flags, sdb_fmt ("sym.imp.%s", imp->name));
if (!impsym) {
//eprintf ("Cannot find '%s' import in the PLT\n", imp->name);
continue;
}
ut64 imp_addr = impsym->offset;
eprintf ("Resolving %s... ", imp->name);
RCoreLinkData linkdata = {imp->name, UT64_MAX, r->bin};
r_id_storage_foreach (r->io->files, linkcb, &linkdata);
if (linkdata.addr != UT64_MAX) {
eprintf ("0x%08"PFMT64x"\n", linkdata.addr);
ut64 a = linkdata.addr;
ut64 b = imp_addr;
r_core_cmdf (r, "ax 0x%08"PFMT64x" 0x%08"PFMT64x, a, b);
} else {
eprintf ("NO\n");
}
}
}
//If type == R_BIN_TYPE_CORE, we need to create all the maps
if (plugin && binfile && plugin->file_type
&& plugin->file_type (binfile) == R_BIN_TYPE_CORE) {
ut64 sp_addr = (ut64)-1;
RIOMap *stack_map = NULL;
// Setting the right arch and bits, so regstate will be shown correctly
if (plugin->info) {
RBinInfo *inf = plugin->info (binfile);
eprintf ("Setting up coredump arch-bits to: %s-%d\n", inf->arch, inf->bits);
r_config_set (r->config, "asm.arch", inf->arch);
r_config_set_i (r->config, "asm.bits", inf->bits);
r_bin_info_free (inf);
}
if (binfile->o->regstate) {
if (r_reg_arena_set_bytes (r->anal->reg, binfile->o->regstate)) {
eprintf ("Setting up coredump: Problem while setting the registers\n");
} else {
eprintf ("Setting up coredump: Registers have been set\n");
const char *regname = r_reg_get_name (r->anal->reg, R_REG_NAME_SP);
if (regname) {
RRegItem *reg = r_reg_get (r->anal->reg, regname, -1);
if (reg) {
sp_addr = r_reg_get_value (r->anal->reg, reg);
stack_map = r_io_map_get (r->io, sp_addr);
}
}
regname = r_reg_get_name (r->anal->reg, R_REG_NAME_PC);
if (regname) {
RRegItem *reg = r_reg_get (r->anal->reg, regname, -1);
if (reg) {
ut64 seek = r_reg_get_value (r->anal->reg, reg);
r_core_seek (r, seek, true);
}
}
}
}
RBinObject *o = binfile->o;
int map = 0;
if (o && o->maps) {
RList *maps = o->maps;
RListIter *iter;
RBinMap *mapcore;
r_list_foreach (maps, iter, mapcore) {
RIOMap *iomap = r_io_map_get (r->io, mapcore->addr);
if (iomap && (mapcore->file || stack_map == iomap)) {
r_io_map_set_name (iomap, r_str_get_fail (mapcore->file, "[stack]"));
}
map++;
}
r_list_free (maps);
o->maps = NULL;
}
eprintf ("Setting up coredump: %d maps have been found and created\n", map);
goto beach;
}
beach:
return true;
}
R_API RIODesc *r_core_file_open_many(RCore *r, const char *file, int perm, ut64 loadaddr) {
const bool openmany = r_config_get_i (r->config, "file.openmany");
int opened_count = 0;
RListIter *fd_iter, *iter2;
RIODesc *fd;
RList *list_fds = r_io_open_many (r->io, file, perm, 0644);
if (!list_fds || r_list_length (list_fds) == 0) {
r_list_free (list_fds);
return NULL;
}
r_list_foreach_safe (list_fds, fd_iter, iter2, fd) {
opened_count++;
if (openmany && opened_count > 1) {
// XXX - Open Many should limit the number of files
// loaded in io plugin area this needs to be more premptive
// like down in the io plugin layer.
// start closing down descriptors
r_list_delete (list_fds, fd_iter);
continue;
}
r_core_bin_load (r, fd->name, loadaddr);
}
return NULL;
}
/* loadaddr is r2 -m (mapaddr) */
R_API RIODesc *r_core_file_open(RCore *r, const char *file, int flags, ut64 loadaddr) {
r_return_val_if_fail (r && file, NULL);
ut64 prev = r_time_now_mono ();
const bool openmany = r_config_get_i (r->config, "file.openmany");
if (!strcmp (file, "-")) {
file = "malloc://512";
}
//if not flags was passed open it with -r--
if (!flags) {
flags = R_PERM_R;
}
r->io->bits = r->rasm->bits; // TODO: we need an api for this
RIODesc *fd = r_io_open_nomap (r->io, file, flags, 0644);
if (r_cons_is_breaked()) {
goto beach;
}
if (!fd && openmany) {
// XXX - make this an actual option somewhere?
fd = r_core_file_open_many (r, file, flags, loadaddr);
if (fd) {
goto beach;
}
}
if (!fd) {
if (flags & R_PERM_W) {
// flags |= R_IO_CREAT;
if (!(fd = r_io_open_nomap (r->io, file, flags, 0644))) {
goto beach;
}
} else {
goto beach;
}
}
if (r_io_is_listener (r->io)) {
r_core_serve (r, fd);
r_io_desc_free (fd);
goto beach;
}
{
const char *cp = r_config_get (r->config, "cmd.open");
if (cp && *cp) {
r_core_cmd (r, cp, 0);
}
}
r_io_use_fd (r->io, fd->fd);
if (r_config_get_i (r->config, "cfg.debug")) {
bool swstep = true;
if (r->dbg->h && r->dbg->h->canstep) {
swstep = false;
}
r_config_set_i (r->config, "dbg.swstep", swstep);
// Set the correct debug handle
if (fd->plugin && fd->plugin->isdbg) {
char *dh = r_str_ndup (file, (strstr (file, "://") - file));
if (dh) {
r_debug_use (r->dbg, dh);
free (dh);
}
}
}
//used by r_core_bin_load otherwise won't load correctly
//this should be argument of r_core_bin_load <shrug>
if (loadaddr != UT64_MAX) {
r_config_set_i (r->config, "bin.laddr", loadaddr);
}
r_core_cmd0 (r, "=!");
beach:
r->times->file_open_time = r_time_now_mono () - prev;
return fd;
}