radare2/libr/core/core.c

4467 lines
123 KiB
C

/* radare2 - LGPL - Copyright 2009-2024 - pancake */
#define R_LOG_ORIGIN "core"
#include <r_core.h>
#include <r_vec.h>
#if R2__UNIX__
#include <signal.h>
#endif
#define DB core->sdb
R_LIB_VERSION (r_core);
R_VEC_TYPE (RVecAnalRef, RAnalRef);
static ut64 letter_divs[R_CORE_ASMQJMPS_LEN_LETTERS - 1] = {
R_CORE_ASMQJMPS_LETTERS * R_CORE_ASMQJMPS_LETTERS * R_CORE_ASMQJMPS_LETTERS * R_CORE_ASMQJMPS_LETTERS,
R_CORE_ASMQJMPS_LETTERS * R_CORE_ASMQJMPS_LETTERS * R_CORE_ASMQJMPS_LETTERS,
R_CORE_ASMQJMPS_LETTERS * R_CORE_ASMQJMPS_LETTERS,
R_CORE_ASMQJMPS_LETTERS
};
static int on_fcn_new(RAnal *_anal, void* _user, RAnalFunction *fcn) {
RCore *core = (RCore*)_user;
const char *cmd = r_config_get (core->config, "cmd.fcn.new");
if (R_STR_ISNOTEMPTY (cmd)) {
ut64 oaddr = core->offset;
ut64 addr = fcn->addr;
r_core_seek (core, addr, true);
r_core_cmd0 (core, cmd); // TODO: use r_core_cmd_at
r_core_seek (core, oaddr, true);
}
return 0;
}
static int on_fcn_delete(RAnal *_anal, void* _user, RAnalFunction *fcn) {
RCore *core = (RCore*)_user;
const char *cmd = r_config_get (core->config, "cmd.fcn.delete");
if (R_STR_ISNOTEMPTY (cmd)) {
ut64 oaddr = core->offset;
ut64 addr = fcn->addr;
r_core_seek (core, addr, true);
r_core_cmd0 (core, cmd); // use r_core_cmd_at
r_core_seek (core, oaddr, true);
}
return 0;
}
static int on_fcn_rename(RAnal *_anal, void* _user, RAnalFunction *fcn, const char *oname) {
RCore *core = (RCore*)_user;
const char *cmd = r_config_get (core->config, "cmd.fcn.rename");
if (R_STR_ISNOTEMPTY (cmd)) {
// XXX: wat do with old name here?
ut64 oaddr = core->offset;
ut64 addr = fcn->addr;
r_core_seek (core, addr, true);
r_core_cmd0 (core, cmd); // use r_core_cmd_at
r_core_seek (core, oaddr, true);
}
return 0;
}
static void r_core_debug_breakpoint_hit(RCore *core, RBreakpointItem *bpi) {
const char *cmdbp = r_config_get (core->config, "cmd.bp");
const bool cmdbp_exists = R_STR_ISNOTEMPTY (cmdbp);
const bool bpcmd_exists = R_STR_ISNOTEMPTY (bpi->data);
const bool may_output = (cmdbp_exists || bpcmd_exists);
if (may_output) {
r_cons_push ();
}
if (cmdbp_exists) {
r_core_cmd0 (core, cmdbp);
}
if (bpcmd_exists) {
r_core_cmd0 (core, bpi->data);
}
if (may_output) {
r_cons_flush ();
r_cons_pop ();
}
}
static void r_core_debug_syscall_hit(RCore *core) {
const char *cmdhit = r_config_get (core->config, "cmd.onsyscall");
if (R_STR_ISNOTEMPTY (cmdhit)) {
r_core_cmd0 (core, cmdhit);
r_cons_flush ();
}
}
struct getreloc_t {
ut64 vaddr;
int size;
};
static int getreloc_tree(void *incoming, void *in, void *user) {
struct getreloc_t *gr = (struct getreloc_t *)incoming;
RBinReloc *r = (RBinReloc *)in;
if ((r->vaddr >= gr->vaddr) && (r->vaddr < (gr->vaddr + gr->size))) {
return 0;
}
if (gr->vaddr > r->vaddr) {
return 1;
}
if (gr->vaddr < r->vaddr) {
return -1;
}
return 0;
}
R_API RBinReloc *r_core_getreloc(RCore *core, ut64 addr, int size) {
if (size < 1 || addr == UT64_MAX) {
return NULL;
}
RRBTree *relocs = r_bin_get_relocs (core->bin);
if (!relocs) {
return NULL;
}
struct getreloc_t gr = { .vaddr = addr, .size = size };
return r_crbtree_find (relocs, &gr, getreloc_tree, NULL);
}
/* returns the address of a jmp/call given a shortcut by the user or UT64_MAX
* if there's no valid shortcut. When is_asmqjmps_letter is true, the string
* should be of the form XYZWu, where XYZW are uppercase letters and u is a
* lowercase one. If is_asmqjmps_letter is false, the string should be a number
* between 1 and 9 included. */
R_API ut64 r_core_get_asmqjmps(RCore *core, const char *str) {
if (!core->asmqjmps) {
return UT64_MAX;
}
if (core->is_asmqjmps_letter) {
int i, pos = 0;
const int len = strlen (str);
for (i = 0; i < len - 1; i++) {
if (!isupper ((ut8)str[i])) {
return UT64_MAX;
}
pos *= R_CORE_ASMQJMPS_LETTERS;
pos += str[i] - 'A' + 1;
}
if (!islower ((ut8)str[i])) {
return UT64_MAX;
}
pos *= R_CORE_ASMQJMPS_LETTERS;
pos += str[i] - 'a';
if (pos < core->asmqjmps_count) {
return core->asmqjmps[pos + 1];
}
} else if (isdigit (str[0])) {
const int pos = str[0] - '0';
if (pos <= core->asmqjmps_count) {
return core->asmqjmps[pos];
}
}
return UT64_MAX;
}
/**
* Takes addr and returns already saved shortcut or a new one
* The returned buffer needs to be freed
*/
R_API char* r_core_add_asmqjmp(RCore *core, ut64 addr) {
bool found = false;
if (!core->asmqjmps) {
return NULL;
}
if (core->is_asmqjmps_letter) {
if (core->asmqjmps_count >= R_CORE_ASMQJMPS_MAX_LETTERS) {
return NULL;
}
if (core->asmqjmps_count >= core->asmqjmps_size - 2) {
core->asmqjmps = realloc (core->asmqjmps, core->asmqjmps_size * 2 * sizeof (ut64));
if (!core->asmqjmps) {
return NULL;
}
core->asmqjmps_size *= 2;
}
}
if (core->asmqjmps_count < core->asmqjmps_size - 1) {
int i = 0;
char t[R_CORE_ASMQJMPS_LEN_LETTERS + 1] = {0};
for (i = 0; i < core->asmqjmps_count + 1; i++) {
if (core->asmqjmps[i] == addr) {
found = true;
break;
}
}
if (!found) {
i = ++core->asmqjmps_count;
core->asmqjmps[i] = addr;
}
// This check makes pos never be <1, thefor not fill 't' with trash
if (i < 1) {
return NULL;
}
r_core_set_asmqjmps (core, t, sizeof (t), i);
return strdup (t);
}
return NULL;
}
/* returns in str a string that represents the shortcut to access the asmqjmp
* at position pos. When is_asmqjmps_letter is true, pos is converted into a
* multiletter shortcut of the form XYWZu and returned (see r_core_get_asmqjmps
* for more info). Otherwise, the shortcut is the string representation of pos. */
R_API void r_core_set_asmqjmps(RCore *core, char *str, size_t len, int pos) {
R_RETURN_IF_FAIL (core && str && pos > 0);
if (core->is_asmqjmps_letter) {
int i, j = 0;
pos --;
for (i = 0; i < R_CORE_ASMQJMPS_LEN_LETTERS - 1; i++) {
const int div = pos / letter_divs[i];
pos %= letter_divs[i];
if (div > 0 && j < len) {
str[j++] = 'A' + div - 1;
}
}
if (j < len) {
const int div = pos % R_CORE_ASMQJMPS_LETTERS;
str[j++] = 'a' + div;
}
str[j] = '\0';
} else {
snprintf (str, len, "%d", pos);
}
}
static void core_help(RCore *core, RCoreHelpMessage help) {
r_core_cmd_help (core, help);
}
static void setab(RCore *core, const char *arch, int bits) {
if (arch) {
r_config_set (core->config, "asm.arch", arch);
}
if (bits > 0) {
r_config_set_i (core->config, "asm.bits", bits);
}
}
static const char *getName(RCore *core, ut64 addr) {
RFlagItem *item = r_flag_get_i (core->flags, addr);
if (item) {
if (core->flags->realnames) {
return item->realname
? item->realname: item->name;
}
return item->name;
}
return NULL;
}
static char *getNameDelta(RCore *core, ut64 addr) {
RFlagItem *item = r_flag_get_at (core->flags, addr, true);
if (item) {
if (item->offset != addr) {
return r_str_newf ("%s + %d", item->name, (int)(addr - item->offset));
}
return strdup (item->name);
}
return NULL;
}
static void archbits(RCore *core, ut64 addr) {
r_core_seek_arch_bits (core, addr);
}
static int cfggeti(RCore *core, const char *k) {
return r_config_get_i (core->config, k);
}
static const char *cfgget(RCore *core, const char *k) {
return r_config_get (core->config, k);
}
static ut64 numget(RCore *core, const char *k) {
return r_num_math (core->num, k);
}
static bool __isMapped(RCore *core, ut64 addr, int perm) {
if (r_config_get_b (core->config, "cfg.debug")) {
// RList *maps = core->dbg->maps;
RDebugMap *map = NULL;
RListIter *iter = NULL;
r_list_foreach (core->dbg->maps, iter, map) {
if (addr >= map->addr && addr < map->addr_end) {
if (perm > 0) {
if (map->perm & perm) {
return true;
}
} else {
return true;
}
}
}
return false;
}
return r_io_map_is_mapped (core->io, addr);
}
static bool __syncDebugMaps(RCore *core) {
if (r_config_get_b (core->config, "cfg.debug")) {
return r_debug_map_sync (core->dbg);
}
return false;
}
R_API char *r_core_cmd_call_str_at(RCore *core, ut64 addr, const char *cmd) {
R_RETURN_VAL_IF_FAIL (core && core->cons, NULL);
r_cons_push ();
core->cons->context->noflush = true;
core->cons->context->cmd_str_depth++;
if (cmd && r_core_cmd_call_at (core, addr, cmd) == -1) {
//eprintf ("Invalid command: %s\n", cmd);
if (--core->cons->context->cmd_str_depth == 0) {
core->cons->context->noflush = false;
r_cons_flush ();
}
r_cons_pop ();
return NULL;
}
if (--core->cons->context->cmd_str_depth == 0) {
core->cons->context->noflush = false;
}
r_cons_filter ();
const char *static_str = r_cons_get_buffer ();
char *retstr = strdup (r_str_get (static_str));
r_cons_pop ();
r_cons_echo (NULL);
return retstr;
}
R_API int r_core_bind(RCore *core, RCoreBind *bnd) {
bnd->core = core;
bnd->bphit = (RCoreDebugBpHit)r_core_debug_breakpoint_hit;
bnd->syshit = (RCoreDebugSyscallHit)r_core_debug_syscall_hit;
bnd->cmd = (RCoreCmd)r_core_cmd0;
bnd->cmdf = (RCoreCmdF)r_core_cmdf;
bnd->callat = (RCoreCallAt)r_core_cmd_call_str_at;
bnd->cmdstr = (RCoreCmdStr)r_core_cmd_str;
bnd->cmdstrf = (RCoreCmdStrF)r_core_cmd_strf;
bnd->help = (RCoreBindHelp)core_help;
bnd->puts = (RCorePuts)r_cons_print;
bnd->setab = (RCoreSetArchBits)setab;
bnd->getName = (RCoreGetName)getName;
bnd->getNameDelta = (RCoreGetNameDelta)getNameDelta;
bnd->archbits = (RCoreSeekArchBits)archbits;
bnd->cfggeti = (RCoreConfigGetI)cfggeti;
bnd->cfgGet = (RCoreConfigGet)cfgget;
bnd->numGet = (RCoreNumGet)numget;
bnd->isMapped = (RCoreIsMapped)__isMapped;
bnd->syncDebugMaps = (RCoreDebugMapsSync)__syncDebugMaps;
bnd->pjWithEncoding = (RCorePJWithEncoding)r_core_pj_new;
return true;
}
R_API RCore *r_core_ncast(ut64 p) {
return (RCore*)(size_t)p;
}
R_API RCore *r_core_cast(void *p) {
return (RCore*)p;
}
static ut64 getref(RCore *core, int n, char t, int type) {
RAnalFunction *fcn = r_anal_get_fcn_in (core->anal, core->offset, 0);
if (!fcn) {
return UT64_MAX;
}
RVecAnalRef *anal_refs = (t == 'r')
? r_anal_function_get_refs (fcn)
: r_anal_function_get_xrefs (fcn);
int i = 0;
if (anal_refs) {
RAnalRef *r;
R_VEC_FOREACH (anal_refs, r) {
if (r->type == type) {
if (i == n) {
ut64 addr = r->addr;
RVecAnalRef_free (anal_refs);
return addr;
}
i++;
}
}
}
RVecAnalRef_free (anal_refs);
return UT64_MAX;
}
static ut64 bbInstructions(RAnalFunction *fcn, ut64 addr) {
RListIter *iter;
RAnalBlock *bb;
r_list_foreach (fcn->bbs, iter, bb) {
if (R_BETWEEN (bb->addr, addr, bb->addr + bb->size - 1)) {
return bb->ninstr;
}
}
return UT64_MAX;
}
static ut64 bbBegin(RAnalFunction *fcn, ut64 addr) {
RListIter *iter;
RAnalBlock *bb;
r_list_foreach (fcn->bbs, iter, bb) {
if (R_BETWEEN (bb->addr, addr, bb->addr + bb->size - 1)) {
return bb->addr;
}
}
return UT64_MAX;
}
static ut64 bbJump(RAnalFunction *fcn, ut64 addr) {
RListIter *iter;
RAnalBlock *bb;
r_list_foreach (fcn->bbs, iter, bb) {
if (R_BETWEEN (bb->addr, addr, bb->addr + bb->size - 1)) {
return bb->jump;
}
}
return UT64_MAX;
}
static ut64 bbFail(RAnalFunction *fcn, ut64 addr) {
RListIter *iter;
RAnalBlock *bb;
r_list_foreach (fcn->bbs, iter, bb) {
if (R_BETWEEN (bb->addr, addr, bb->addr + bb->size - 1)) {
return bb->fail;
}
}
return UT64_MAX;
}
static ut64 bbSize(RAnalFunction *fcn, ut64 addr) {
RListIter *iter;
RAnalBlock *bb;
r_list_foreach (fcn->bbs, iter, bb) {
if (R_BETWEEN (bb->addr, addr, bb->addr + bb->size - 1)) {
return bb->size;
}
}
return 0;
}
static const char *str_callback(RNum *user, ut64 off, int *ok) {
RFlag *f = (RFlag*)user;
if (ok) {
*ok = 0;
}
if (f) {
RFlagItem *item = r_flag_get_i (f, off);
if (item) {
if (ok) {
*ok = true;
}
return item->name;
}
}
return NULL;
}
static ut64 numvar_instruction_backward(RCore *core, const char *input) {
// N forward instructions
int i, ret;
int n = 1;
if (isdigit ((unsigned char)input[0])) {
n = atoi (input);
} else if (input[0] == '{') {
n = atoi (input + 1);
}
if (n < 1) {
R_LOG_ERROR ("Invalid negative value");
n = 1;
}
int numinstr = n;
// N previous instructions
ut64 addr = core->offset;
ut64 val = addr;
if (r_core_prevop_addr (core, core->offset, numinstr, &addr)) {
val = addr;
} else {
ut8 data[32];
addr = core->offset;
const int mininstrsize = r_anal_archinfo (core->anal, R_ARCH_INFO_MINOP_SIZE);
for (i = 0; i < numinstr; i++) {
ut64 prev_addr = r_core_prevop_addr_force (core, addr, 1);
if (prev_addr == UT64_MAX) {
prev_addr = addr - mininstrsize;
}
if (prev_addr == UT64_MAX || prev_addr >= core->offset) {
break;
}
RAnalOp op = {0};
ret = r_anal_op (core->anal, &op, prev_addr, data,
sizeof (data), R_ARCH_OP_MASK_BASIC);
if (ret < 1) {
ret = 1;
}
if (op.size < mininstrsize) {
op.size = mininstrsize;
}
val -= op.size;
r_anal_op_fini (&op);
addr = prev_addr;
}
}
return val;
}
static ut64 numvar_instruction(RCore *core, const char *input) {
ut64 addr = core->offset;
// N forward instructions
ut8 data[32];
int i;
ut64 val = addr;
int n = 1;
if (input[0] == '{') {
n = atoi (input + 1);
}
if (n < 1) {
R_LOG_ERROR ("Invalid negative value");
n = 1;
}
for (i = 0; i < n; i++) {
r_io_read_at (core->io, val, data, sizeof (data));
RAnalOp op = {0};
int ret = r_anal_op (core->anal, &op, val, data,
sizeof (data), R_ARCH_OP_MASK_BASIC);
if (ret < 1) {
R_LOG_DEBUG ("cannot decode at 0x%08"PFMT64x, val);
}
val += op.size;
r_anal_op_fini (&op);
}
return val;
}
static ut64 num_callback(RNum *userptr, const char *str, int *ok) {
RCore *core = (RCore *)userptr; // XXX ?
RAnalFunction *fcn;
char *ptr, *bptr, *out = NULL;
RFlagItem *flag;
RBinSection *s;
RAnalOp op;
ut64 ret = 0;
r_anal_op_init (&op);
if (ok) {
*ok = false;
}
switch (*str) {
case '.':
if (str[1] == '.') {
if (ok) {
*ok = true;
}
return r_num_tail (core->num, core->offset, str + 2);
}
if (core->num->nc.curr_tok == '+') {
ut64 off = core->num->nc.number_value.n;
if (!off) {
off = core->offset;
}
RAnalFunction *fcn = r_anal_get_function_at (core->anal, off);
if (fcn) {
if (ok) {
*ok = true;
}
ut64 dst = r_anal_function_get_label (fcn, str + 1);
if (dst == UT64_MAX) {
dst = fcn->addr;
}
st64 delta = dst - off;
if (delta < 0) {
core->num->nc.curr_tok = '-';
delta = off - dst;
}
return delta;
}
}
break;
case '[':
{
ut64 n = 0LL;
int refsz = core->rasm->config->bits / 8;
const char *p = strchr (str, ':');
if (p) {
refsz = atoi (str + 1);
str = p;
}
// push state
if (str[0] && str[1]) {
const char *q;
char *o = strdup (str + 1);
if (o) {
q = r_num_calc_index (core->num, NULL);
if (q) {
if (r_str_replace_char (o, ']', 0)>0) {
n = r_num_math (core->num, o);
if (core->num->nc.errors) {
return 0;
}
r_num_calc_index (core->num, q);
}
}
free (o);
}
} else {
return 0;
}
// pop state
if (ok) {
*ok = 1;
}
ut8 buf[sizeof (ut64)] = {0};
(void)r_io_read_at (core->io, n, buf, R_MIN (sizeof (buf), refsz));
const bool be = R_ARCH_CONFIG_IS_BIG_ENDIAN (core->rasm->config);
switch (refsz) {
case 8:
return r_read_ble64 (buf, be);
case 4:
return r_read_ble32 (buf, be);
case 2:
return r_read_ble16 (buf, be);
case 1:
return r_read_ble8 (buf);
default:
R_LOG_ERROR ("Invalid reference size: %d (%s)", refsz, str);
return 0LL;
}
}
break;
case '$':
if (ok) {
*ok = true;
}
switch (str[1]) {
case 'e':
case 'j':
case 'f':
case 'm':
case 'v':
case 'l':
r_anal_op_init (&op);
r_anal_op (core->anal, &op, core->offset, core->block, core->blocksize, R_ARCH_OP_MASK_BASIC);
r_anal_op_fini (&op); // we don't need strings or pointers, just values, which are not nullified in fini
break;
default:
break;
}
// XXX the above line is assuming op after fini keeps jump, fail, ptr, val, size and r_anal_op_is_eob()
switch (str[1]) {
case 'i': // "$i"
if (ok) {
*ok = true;
}
return numvar_instruction (core, str + 2);
case 'I': // "$I"
if (ok) {
*ok = true;
}
return numvar_instruction_backward (core, str + 2);
case '.': // can use pc, sp, a0, a1, ...
return r_debug_reg_get (core->dbg, str + 2);
case 'k': // $k{kv}
if (str[2] != '{') {
R_LOG_ERROR ("Expected '{' after 'k'");
break;
}
bptr = strdup (str + 3);
ptr = strchr (bptr, '}');
if (!ptr) {
// invalid json
free (bptr);
break;
}
*ptr = '\0';
ret = 0LL;
out = sdb_querys (core->sdb, NULL, 0, bptr);
if (out && *out) {
if (strstr (out, "$k{")) {
R_LOG_ERROR ("Recursivity is not permitted here");
} else {
ret = r_num_math (core->num, out);
}
}
free (bptr);
free (out);
return ret;
case '{': // ${ev} eval var
bptr = strdup (str + 2);
ptr = strchr (bptr, '}');
if (ptr) {
ptr[0] = '\0';
ut64 ret = r_config_get_i (core->config, bptr);
free (bptr);
return ret;
}
// take flag here
free (bptr);
break;
case 'c': // $c console width
return r_cons_get_size (NULL);
case 'd': // $d - same as 'op'
if (core->io && core->io->desc) {
return core->io->desc->fd;
}
return 0;
case 'r': // $r
if (str[2] == '{' || str[2] == ':') {
bptr = strdup (str + 3);
if (str[2] == '{') {
ptr = strchr (bptr, '}');
if (!ptr) {
free (bptr);
break;
}
*ptr = 0;
}
if (r_config_get_b (core->config, "cfg.debug")) {
if (r_debug_reg_sync (core->dbg, R_REG_TYPE_GPR, false)) {
RRegItem *r = r_reg_get (core->dbg->reg, bptr, -1);
if (r) {
free (bptr);
return r_reg_get_value (core->dbg->reg, r);
}
}
} else {
RRegItem *r = r_reg_get (core->anal->reg, bptr, -1);
if (r) {
free (bptr);
return r_reg_get_value (core->anal->reg, r);
}
}
free (bptr);
return 0; // UT64_MAX;
} else {
int rows;
(void)r_cons_get_size (&rows);
return rows;
}
break;
case 'e': // $e
if (str[2] == '{') { // $e{flag} flag off + size
char *flagName = strdup (str + 3);
int flagLength = strlen (flagName);
if (flagLength > 0) {
flagName[flagLength - 1] = 0;
}
RFlagItem *flag = r_flag_get (core->flags, flagName);
free (flagName);
if (flag) {
return flag->offset + flag->size;
}
return UT64_MAX;
}
return r_anal_op_is_eob (&op);
case 'j': // $j jump address
return op.jump;
case 'p': // $p
return r_sys_getpid ();
case 'P': // $P
return core->dbg->pid > 0 ? core->dbg->pid : 0;
case 'f': // $f jump fail address
if (str[2] == 'l') { // $fl flag length
RFlagItem *fi = r_flag_get_i (core->flags, core->offset);
if (fi) {
return fi->size;
}
return 0;
}
return op.fail;
case 'm': // $m memref
return op.ptr;
case 'B': // $B base address
case 'M': { // $M map address
ut64 lower = UT64_MAX;
ut64 size = 0LL;
RIOMap *map = r_io_map_get_at (core->io, core->offset);
if (map) {
lower = r_io_map_begin (map);
size = r_io_map_size (map);
}
if (str[1] == 'B') {
/* clear lower bits of the lowest map address to define the base address */
const int clear_bits = 16;
lower >>= clear_bits;
lower <<= clear_bits;
}
if (str[2] == 'M') {
return size;
}
return (lower == UT64_MAX)? 0LL: lower;
}
break;
case 'v': // $v immediate value
return op.val;
case 'l': // $l opcode length
return op.size;
case 'b': // $b
return core->blocksize;
case 's': // $s file size
if (str[2] == '{') { // $s{flag} flag size
bptr = strdup (str + 3);
ptr = strchr (bptr, '}');
if (!ptr) {
// invalid json
free (bptr);
break;
}
*ptr = '\0';
RFlagItem *flag = r_flag_get (core->flags, bptr);
ret = flag? flag->size: 0LL; // flag
free (bptr);
free (out);
return ret;
} else if (core->io->desc) {
return r_io_fd_size (core->io, core->io->desc->fd);
}
return 0LL;
case 'w': // $w word size
return r_config_get_i (core->config, "asm.bits") / 8;
case 'S': // $S section offset
{
RBinObject *bo = r_bin_cur_object (core->bin);
if (bo && (s = r_bin_get_section_at (bo, core->offset, true))) {
return (str[2] == 'S'? s->size: s->vaddr);
}
}
return 0LL;
case 'D': // $D
if (str[2] == 'B') { // $DD
return r_debug_get_baddr (core->dbg, NULL);
} else if (isdigit (str[2])) {
return getref (core, atoi (str + 2), 'r', R_ANAL_REF_TYPE_DATA);
} else {
RDebugMap *map;
RListIter *iter;
r_list_foreach (core->dbg->maps, iter, map) {
if (core->offset >= map->addr && core->offset < map->addr_end) {
return (str[2] == 'D')? map->size: map->addr;
}
}
}
return 0LL; // maybe // return UT64_MAX;
case '?': // $?
return core->num->value; // rc;
case '$': // $$ offset
return str[2] == '$' ? core->prompt_offset : core->offset;
case 'o': { // $o
RBinSection *s = r_bin_get_section_at (r_bin_cur_object (core->bin), core->offset, true);
return s ? core->offset - s->vaddr + s->paddr : core->offset;
}
case 'O': // $O
if (core->print->cur_enabled) {
return core->offset + core->print->cur;
}
return core->offset;
case 'C': // $C nth call
return getref (core, atoi (str + 2), 'r', R_ANAL_REF_TYPE_CALL);
case 'J': // $J nth jump
return getref (core, atoi (str + 2), 'r', R_ANAL_REF_TYPE_CODE);
case 'X': // $X nth xref
return getref (core, atoi (str + 2), 'x', R_ANAL_REF_TYPE_CALL);
case 'F': // $F function size
fcn = r_anal_get_fcn_in (core->anal, core->offset, 0);
if (fcn) {
switch (str[2]) {
/* function bounds (uppercase) */
case 'B': return fcn->addr; // begin
case 'E': return r_anal_function_max_addr (fcn); // end
case 'S': return (str[3] == 'S') ? r_anal_function_realsize (fcn) : r_anal_function_linear_size (fcn);
case 'I': return fcn->ninstr;
/* basic blocks (lowercase) */
case 'b': return bbBegin (fcn, core->offset);
case 'e': return bbBegin (fcn, core->offset) + bbSize (fcn, core->offset);
case 'i': return bbInstructions (fcn, core->offset);
case 's': return bbSize (fcn, core->offset);
case 'j': return bbJump (fcn, core->offset); // jump
case 'f': return bbFail (fcn, core->offset); // fail
}
return fcn->addr;
}
return 0;
default:
R_LOG_ERROR ("Invalid variable '%s'", str);
return 0;
}
break;
default:
{
const char str0 = *str;
if (str0 >= 'A' || str0 == ':' || str0 == '_') {
// NOTE: functions override flags
RAnalFunction *fcn = r_anal_get_function_byname (core->anal, str);
if (fcn) {
if (ok) {
*ok = true;
}
return fcn->addr;
}
#if 0
ut64 addr = r_anal_function_label_get (core->anal, core->offset, str);
if (addr != 0) {
ret = addr;
} else {
...
}
#endif
if ((flag = r_flag_get (core->flags, str))) {
ret = flag->offset;
if (ok) {
*ok = true;
}
return ret;
}
// check for reg alias
struct r_reg_item_t *r = r_reg_get (core->dbg->reg, str, -1);
if (!r) {
int role = r_reg_get_name_idx (str);
if (role != -1) {
const char *alias = r_reg_get_name (core->dbg->reg, role);
if (alias) {
r = r_reg_get (core->dbg->reg, alias, -1);
if (r) {
if (ok) {
*ok = true;
}
ret = r_reg_get_value (core->dbg->reg, r);
return ret;
}
}
}
} else {
if (ok) {
*ok = true;
}
ret = r_reg_get_value (core->dbg->reg, r);
return ret;
}
}
}
break;
}
return ret;
}
R_API RCore *r_core_new(void) {
RCore *c = R_NEW0 (RCore);
if (c) {
r_core_init (c);
}
return c;
}
#define radare_argc (sizeof (radare_argv) / sizeof (const char*) - 1)
#define ms_argc (sizeof (ms_argv) / sizeof (const char*) - 1)
static const char *ms_argv[] = {
"?", "!", "ls", "cd", "cat", "get", "mount", "help", "q", "exit", NULL
};
static const char *radare_argv[] = {
"whereis", "which", "ls", "rm", "mkdir", "pwd", "cat", "sort", "uniq", "join", "less", "exit", "quit",
"#?", "#!", "#sha1", "#crc32", "#pcprint", "#sha256", "#sha512", "#md4", "#md5",
"#!python", "#!vala", "#!pipe", "#!qjs", "#!tiny",
"*?", "*", "$",
"(", "(*", "(-", "()", ".?", ".", "..", "...", ".:", ".--", ".-", ".!", ".(", "./", ".*",
"_?", "_",
"=?", "=", "=<", "=!", "=+", "=-", "==", "=!=", "!=!", "=:", "=&:",
"=g?", "=g", "=h?", "=h", "=h-", "=h--", "=h*", "=h&", "=H?", "=H", "=H&",
"<",
"/?", "/", "/j", "/j!", "/j!x", "/+", "//", "/a", "/a1", "/ab", "/ad", "/aa", "/as", "/asl", "/at", "/atl", "/af", "/afl", "/ae", "/aej", "/ai", "/aij",
"/c", "/ca", "/car", "/d", "/e", "/E", "/Ej", "/f", "/F", "/g", "/gg", "/h", "/ht", "/i", "/m", "/mb", "/mm",
"/o", "/O", "/p", "/P", "/s", "/s*", "/r?", "/r", "/ra", "/rc", "/re", "/rr", "/rw", "/rc",
"/R",
"/v?", "/v", "/v1", "/v2", "/v4", "/v8",
"/V?", "/V", "/V1", "/V2", "/V4", "/V8",
"/w", "/wi", "/x", "/z",
"!?", "!", "!!", "!!!", "!!!-", "!-", "!-*", "!=!",
"a?", "a", "aa", "aa*",
"aaa", "aab", "aac", "aac*", "aad", "aae", "aaf", "aaF", "aaFa", "aai", "aaij", "aan", "aang", "aao", "aap",
"aar?", "aar", "aar*", "aarj", "aas", "aat", "aaT", "aau", "aav",
"a8", "ab", "abb",
"acl", "acll", "aclj", "acl*", "ac?", "ac", "ac-", "acn", "acv", "acvf", "acv-", "acb", "acb-", "acm", "acm-", "acmn",
"aC?", "aC", "aCe", "ad", "ad4", "ad8", "adf", "adfg", "adt", "adk",
"ae?", "ae??", "ae", "aea", "aeA", "aeaf", "aeAf", "aeC", "aec?", "aec", "aecs", "aecc", "aecu", "aecue",
"aef", "aefa",
"aei", "aeim", "aeip", "aek", "aek-", "aeli", "aelir", "aep?", "aep", "aep-", "aepc",
"aer", "aets?", "aets+", "aets-", "aes", "aesp", "aesb", "aeso", "aesou", "aess", "aesu", "aesue", "aetr", "aex",
"af?", "af", "afr", "af+", "af-",
"afa", "afan",
"afb?", "afb", "afb.", "afb+", "afbb", "afbr", "afbi", "afbj", "afbe", "afB", "afbc", "afb=",
"afB", "afC", "afCl", "afCc", "afc?", "afc", "afcr", "afcrj", "afca", "afcf", "afcfj",
"afck", "afcl", "afco", "afcR",
"afd", "aff", "afF", "afi",
"afl?", "afl", "afl+", "aflc", "aflj", "afll", "afllj", "aflm", "aflq", "aflqj", "afls",
"afm", "afM", "afn?", "afna", "afns", "afnsj", "afl=",
"afo", "afs", "afS", "aft?", "aft", "afu",
"afv?", "afv", "afvr?", "afvr", "afvr*", "afvrj", "afvr-", "afvrg", "afvrs",
"afvb?", "afvb", "afvbj", "afvb-", "afvbg", "afvbs",
"afvs?", "afvs", "afvs*", "afvsj", "afvs-", "afvsg", "afvss",
"afv*", "afvR", "afvW", "afva", "afvd", "afvn", "afvt", "afv-", "af*", "afx",
"aF",
"ag?", "ag", "aga", "agA", "agc", "agC", "agd", "agf", "agi", "agr", "agR", "agx", "agg", "ag-",
"agn?", "agn", "agn-", "age?", "age", "age-",
"agl", "agfl",
"ah?", "ah", "ah.", "ah-", "ah*", "aha", "ahb", "ahc", "ahe", "ahf", "ahh", "ahi?", "ahi", "ahj", "aho",
"ahp", "ahr", "ahs", "ahS", "aht",
"ai", "aL", "an",
"ao?", "ao", "aoj", "aoe", "aor", "aos", "aom", "aod", "aoda", "aoc", "ao*",
"aO", "ap",
"ar?", "ar", "ar0", "ara?", "ara", "ara+", "ara-", "aras", "arA", "arC", "arr", "arrj", "ar=",
"arb", "arc", "ard", "arn", "aro", "arp?", "arp", "arpi", "arpg", "arp.", "arpj", "arps",
"ars", "art", "arw",
"as?", "as", "asc", "asca", "asf", "asj", "asl", "ask",
"av?", "av", "avj", "av*", "avr", "avra", "avraj", "avrr", "avrD",
"at",
"ax?", "ax", "ax*", "ax-", "ax-*", "axc", "axC", "axg", "axg*", "axgj", "axd", "axw", "axj", "axF",
"axt", "axf", "ax.", "axff", "axffj", "axs",
"b?", "b", "b+", "b-", "bf", "bm",
"c?", "c", "c1", "c2", "c4", "c8", "cc", "ccd", "cf", "cg?", "cg", "cgf", "cgff", "cgfc", "cgfn", "cgo",
"cu?", "cu", "cu1", "cu2", "cu4", "cu8", "cud",
"cv", "cv1", "cv2", "cv4", "cv8",
"cV", "cV1", "cV2", "cV4", "cV8",
"cw?", "cw", "cw*", "cwr", "cwu",
"cx", "cx*", "cX",
"cl", "cls", "clear",
"d?", "db ", "db-", "db-*", "db.", "dbj", "dbc", "dbC", "dbd", "dbe", "dbs", "dbf", "dbm", "dbn",
"db?", "dbi", "dbi.", "dbix", "dbic", "dbie", "dbid", "dbis", "dbite", "dbitd", "dbits", "dbh", "dbh-",
"dbt", "dbt*", "dbt=", "dbtv", "dbtj", "dbta", "dbte", "dbtd", "dbts", "dbx", "dbw",
"dc?", "dc", "dca", "dcb", "dcc", "dccu", "dcf", "dck", "dcp", "dcr", "dcs", "dcs*", "dct", "dcu", "dcu.",
"dd?", "dd", "dd-", "dd+", "dd*", "dds", "ddd", "ddr", "ddw",
"de",
"dg",
"dH",
"di?", "di", "di*", "diq", "dij",
"dk?", "dk", "dko", "dkj",
"dL?", "dL", "dLq", "dLj",
"dm?", "dm", "dm=", "dm.", "dm*", "dm-", "dmd",
"dmh?", "dmh", "dmha", "dmhb", "dmhbg", "dmhc", "dmhf", "dmhg", "dmhi", "dmhm", "dmht",
"dmi?", "dmi", "dmi*", "dmi.", "dmiv",
"dmj",
"dml?", "dml",
"dmm?", "dmm", "dmm*", "dmm.", "dmmj",
"dmp?", "dmp",
"dms?", "dms", "dmsj", "dms*", "dms-", "dmsA", "dmsC", "dmsd", "dmsw", "dmsa", "dmsf", "dmst",
"dmS", "dmS*",
"do?", "do", "dor", "doo",
"dp?", "dp", "dpj", "dpl", "dplj", "dp-", "dp=", "dpa", "dpc", "dpc*", "dpe", "dpf", "dpk", "dpn", "dptn", "dpt",
"dr?", "dr", "drps", "drpj", "drr", "drrj", "drs", "drs+", "drs-", "drt", "drt*", "drtj", "drw", "drx", "drx-",
".dr*", ".dr-",
"ds?", "ds", "dsb", "dsf", "dsi", "dsl", "dso", "dsp", "dss", "dsu", "dsui", "dsuo", "dsue", "dsuf",
"dt?", "dt", "dt%", "dt*", "dt+", "dt-", "dt=", "dtD", "dta", "dtc", "dtd", "dte", "dte-*", "dtei", "dtek",
"dtg", "dtg*", "dtgi",
"dtr",
"dts?", "dts", "dts+", "dts-", "dtsf", "dtst", "dtsC", "dtt",
"dw",
"dx?", "dx", "dxa", "dxe", "dxr", "dxs",
"e?", "e", "-e", "-i", "e-", "e*", "e!", "ec", "ee?", "ee", "?ed", "ed", "ej", "env", "er", "es", "et", "ev", "evj",
"ec?", "ec", "ec*", "ecd", "ecr", "ecs", "ecj", "ecc", "eco", "ecp", "ecn",
"ecH?", "ecH", "ecHi", "ecHw", "ecH-",
"f?", "f", "f.", "f*", "f-", "f--", "f+", "f=", "fa", "fb", "fc?", "fc", "fC", "fd", "fe-", "fe",
"ff", "fi", "fg", "fj",
"fl", "fla", "fm", "fn", "fnj", "fo", "fO", "fr", "fR", "fR?",
"fs?", "fs", "fs*", "fsj", "fs-", "fs+", "fs-.", "fsq", "fsm", "fss", "fss*", "fssj", "fsr",
"ft?", "ft", "ftn", "fV", "fx", "fq",
"fz?", "fz", "fz-", "fz.", "fz:", "fz*",
"g?", "g", "gw", "gc", "gl?", "gl", "gs", "gi", "gp", "ge", "gr", "gS",
"help",
"i?", "i", "ij", "iA", "ia", "ib", "ic", "icc", "iC",
"id?", "id", "idp", "idpi", "idpi*", "idpd", "iD", "ie", "iee", "iE", "iE.",
"ih", "iHH", "ii", "iI", "ik", "il", "iL", "im", "iM", "io", "iO?", "iO",
"ir", "iR", "is", "is.", "iS", "iS.", "iS=", "iSS",
"it", "iV", "iX", "iz", "izj", "izz", "izzz", "iz-", "iZ",
"k?", "k", "ko", "kd", "ks", "kj",
"l",
"L?", "L", "L-", "Ll", "LL", "La", "Lc", "Ld", "Lh", "Li", "Lo",
"m?", "m", "m*", "ml", "m-", "md", "mf?", "mf", "mg", "mo", "mi", "mp", "ms", "my",
"o?", "o", "o-", "o--", "o+", "oe", "oa", "oa-", "oq", "oqq", "open", "o*", "o**", "o.", "o=",
"ob?", "ob", "ob*", "obo", "oba", "obf", "obj", "obr", "ob-", "ob-*", "obi",
"oc", "of", "oi", "oj", "oL", "om", "on",
"oo?", "oo", "oo+", "oob", "ood", "oom", "oon", "oon+", "oonn", "oonn+",
"op", "opn", "opp", "opr", "ox",
"p?", "p-", "p=", "p2", "p3", "p6?", "p6", "p6d", "p6e", "p8?", "p8", "p8f", "p8j",
"pa?", "paD", "pad", "pade", "pae", "pA",
"pb?", "pb", "pB", "pxb", "pB?",
"pc?", "pc", "pc*", "pca", "pcA", "pcd", "pch", "pcj", "pcp", "pcs", "pcS", "pcw",
"pC?", "pC", "pCa", "pCA", "pCc", "pCd", "pCD", "pCx", "pCw",
"pd?", "pd", "pd--", "pD", "pda", "pdb", "pdc", "pdC", "pdf", "pdi", "pdj", "pdJ",
"pdk", "pdl", "pdp", "pdr", "pdr.", "pdR", "pds?", "pds", "pdsb", "pdsf", "pdt",
"pD",
"pf?", "pf", "pf??", "pf???", "pf.", "pfj", "pfj.", "pf*", "pf*.", "pfc", "pfc.", "pfd", "pfd.",
"pfo", "pfq", "pfv", "pfv.", "pfs", "pfs.",
"pF?", "pF", "pFa", "pFaq", "pFo", "pFp", "pFx",
"pg?", "pg", "pg*", "pg-*",
"ph?", "ph", "ph=",
"pi?", "pi", "pia", "pib", "pid", "pie", "pif?", "pif", "pifc", "pifcj", "pifj", "pij", "pir",
"pI?", "pI", "pIa", "pIb", "pId", "pIe", "pIf?", "pIf", "pIfc", "pIfcj", "pIfj", "pIj", "pIr",
"pj?", "pj", "pj.", "pj..",
"pk?", "pk", "pK?", "pK",
"pm?", "pm",
"pq?", "pq", "pqi", "pqz",
"pr?", "pr", "prc", "prl", "prx", "prg?", "prg", "prgi", "prgo", "prz",
"ps?", "ps", "psb", "psi", "psj", "psp", "pss", "psu", "psw", "psW", "psx", "psz", "ps+",
"pt?", "pt", "pt.", "ptd", "pth", "ptn",
"pu?", "pu", "puw", "pU",
"pv?", "pv", "pv1", "pv2", "pv4", "pv8", "pvz", "pvj", "pvh", "pv1j", "pv2j", "pv4j", "pv8j",
"pv1h", "pv2h", "pv4h", "pv8h",
"px?", "px", "px/", "px0", "pxa", "pxA?", "pxA", "pxb", "pxc", "pxd?", "pxd", "pxd2", "pxd4", "pxd8",
"pxe", "pxf", "pxh", "pxH", "pxi", "pxl", "pxo", "pxq", "pxq", "pxQ", "pxQq", "pxr", "pxrj",
"pxs", "pxt", "pxt*", "pxt.", "pxw", "pxW", "pxWq", "pxx", "pxX",
"pz?", "pz", "pzp", "pzf", "pzs", "pz0", "pzF", "pze", "pzh",
"P?", "P", "Pc", "Pd", "Pi", "Pn", "Pnj", "Po", "Ps", "PS", "P-",
"q?", "q", "q!", "q!!", "q!!!", "qy", "qn", "qyy", "qyn", "qny", "qnn",
"r?", "r", "r-", "r+", "rh",
"s?", "s", "s:", "s-", "s-*", "s--", "s+", "s++", "sj", "s*", "s=", "s!", "s/", "s/x", "s.", "sa", "sb",
"sC?", "sC", "sC*",
"sf", "sf.", "sg", "sG", "sl?", "sl", "sl+", "sl-", "slc", "sll", "sn", "sp", "so", "sr", "ss",
"t?", "t", "tj", "t*", "t-", "t-*", "ta", "tb", "tc", "te?", "te", "tej", "teb", "tec",
"td?", "td", "td-", "tf", "tk", "tl", "tn", "to", "tos", "tp", "tpx", "ts?", "ts", "tsj", "ts*", "tsc", "tss",
"tu?", "tu", "tuj", "tu*", "tuc", "tt?", "tt", "ttj", "ttc",
"T?", "T", "T*", "T-", "Tl", "Tj", "Tm", "Ts", "TT", "T=", "T=.", "T=&",
"u?", "u", "uw", "us", "uc",
"v", "v.", "V", "v!", "vv", "vV", "vVV", "VV",
"w?", "w", "w1+", "w1-", "w2+", "w2-", "w4+", "w4-", "w8+", "w8-",
"w0", "w", "w6", "w6d", "w6e", "wa", "wa*", "waf", "wao?", "wao",
"wA?", "wA", "wB", "wB-", "wc", "wcj", "wc-", "wc+", "wc*", "wcr", "wci", "wcp", "wcp*", "wcpi",
"wd", "we?", "we", "wen", "weN", "wes", "wex", "weX",
"wf?", "wf", "wff", "wfs", "wF", "wh", "wm",
"wo?", "wo", "wo2", "wo4", "woa", "woA", "wod", "woD", "woe", "woE", "wol", "wom", "woo",
"wop?", "wop", "wopD", "wopD*", "wopO",
"wp?", "wp", "wr", "ws",
"wt?", "wt", "wta", "wtf", "wtf!", "wtff", "wts",
"wu",
"wv?", "wv", "wv1", "wv2", "wv4", "wv8",
"ww",
"wx?", "wx", "wxf", "wxs",
"wz",
"x?", "x", "x/", "x0", "xa", "xA?", "xA", "xb", "xc", "xd?", "xd", "xd2", "xd4", "xd8",
"xe", "xf", "xh", "xH", "xi", "xl", "xo", "xq", "xq", "xQ", "xQq", "xr", "xrj",
"xs", "xt", "xt*", "xt.", "xw", "xW", "xWq", "xx", "xX",
"y?", "y", "yz", "yp", "yx", "ys", "yt", "ytf", "yf", "yfa", "yfx", "yw", "ywx", "yy", "yr",
"z?", "z", "z*", "zj", "z-", "z-*",
"za?", "za??", "za", "zaf", "zaF", "zg",
"zo?", "zo", "zoz", "zos",
"zf?", "zfd", "zfs", "zfz",
"z/?", "z/", "z/*",
"zc",
"zs?", "zs", "zs-", "zs-*", "zs+", "zsr",
"zi",
"?", "?v", "?$?", "?@?", "?>?",
NULL
};
static void autocomplete_mount_point(RLineCompletion *completion, RCore *core, const char *path) {
RFSRoot *r;
RListIter *iter;
r_list_foreach (core->fs->roots, iter, r) {
char *base = strdup (r->path);
char *ls = (char *) r_str_lchr (base, '/');
if (ls) {
ls++;
*ls = 0;
}
if (!strcmp (path, base)) {
r_line_completion_push (completion, r->path);
}
free (base);
}
}
static void autocomplete_ms_path(RLineCompletion *completion, RCore *core, const char *str, const char *path) {
R_RETURN_IF_FAIL (completion && core && str && path);
char *dirname = NULL , *basename = NULL;
char *pwd = strdup (core->rfs->cwd? (const char *)core->rfs->cwd: ".");
int n = 0;
RFSFile *file;
char *lpath = strdup (path);
char *p = (char *)r_str_last (lpath, R_SYS_DIR);
if (p) {
*p = 0;
if (p == lpath) { // /xxx
dirname = strdup ("/");
} else if (lpath[0] == '.') { // ./xxx/yyy
dirname = r_str_newf ("%s%s", pwd, R_SYS_DIR);
} else if (lpath[0] == '/') { // /xxx/yyy
dirname = r_str_newf ("%s%s", lpath, R_SYS_DIR);
} else { // xxx/yyy
if (strlen (pwd) == 1) { // if pwd is root
dirname = r_file_new ("", lpath, NULL);
} else {
dirname = r_file_new (pwd, lpath, NULL);
}
}
basename = strdup (p + 1);
} else { // xxx
if (strlen (pwd) == 1) {
dirname = r_str_newf ("%s", R_SYS_DIR);
} else {
dirname = r_str_newf ("%s%s", pwd, R_SYS_DIR);
}
basename = strdup (lpath);
}
R_FREE (pwd);
if (!dirname || !basename) {
goto out;
}
RList *list = r_fs_dir (core->fs, dirname);
n = strlen (basename);
bool chgdir = r_str_startswith (str, "cd ");
if (list) {
RListIter *iter;
r_list_foreach (list, iter, file) {
if (!file) {
continue;
}
if (!basename[0] || !strncmp (file->name, basename, n)) {
char *tmpstring = r_str_newf ("%s%s", dirname, file->name);
if (r_file_is_directory (tmpstring)) {
char *s = r_str_newf ("%s/", tmpstring);
r_line_completion_push (completion, s);
free (s);
} else if (!chgdir) {
r_line_completion_push (completion, tmpstring);
}
free (tmpstring);
}
}
r_list_free (list);
}
autocomplete_mount_point (completion, core, path);
out:
free (lpath);
free (dirname);
free (basename);
}
typedef struct {
const char *needle;
int needle_len;
bool must_be_data;
const char **valid_completions;
const RCmdAliasVal **valid_completion_vals;
int num_completions;
} AliasAutocompletions;
static bool check_alias_completion(void *in, const void *k, const void *v) {
AliasAutocompletions *c = in;
const char *needle = c->needle;
const int needle_len = c->needle_len;
const RCmdAliasVal *val = v;
/* Skip command aliases if we're filtering them out */
if (c->must_be_data && !val->is_data) {
return true;
}
if (!needle_len || !strncmp (k, needle, needle_len)) {
c->valid_completions[c->num_completions] = k;
c->valid_completion_vals[c->num_completions] = v;
c->num_completions++;
}
return true;
}
static void autocomplete_alias(RLineCompletion *completion, RCmd *cmd, const char *needle, bool must_be_data) {
AliasAutocompletions c;
const int needle_len = strlen (needle);
int i;
c.needle = needle;
c.needle_len = needle_len;
// Filter out command aliases?
c.must_be_data = must_be_data;
// Single block, borrowed pointers
c.valid_completions = R_NEWS (const char *, cmd->aliases->count);
c.valid_completion_vals = R_NEWS (const RCmdAliasVal *, cmd->aliases->count);
c.num_completions = 0;
ht_pp_foreach (cmd->aliases, check_alias_completion, &c);
const int match_count = c.num_completions;
if (match_count == 1) {
/* If only 1 possible completion, use it */
const char *k = c.valid_completions[0];
const RCmdAliasVal *val = c.valid_completion_vals[0];
char *v = r_cmd_alias_val_strdup ((RCmdAliasVal *)val);
r_cons_printf ("$%s=%s%s\n", k, val->is_data? "$": "", v);
r_cons_flush ();
char *completed_alias = r_str_newf ("$%s", k);
r_line_completion_push (completion, completed_alias);
free (completed_alias);
free (v);
} else if (match_count > 1) {
/* If multiple possible completions, show them */
for (i = 0; i < c.num_completions; i++) {
const char *k = c.valid_completions[i];
const RCmdAliasVal *val = c.valid_completion_vals[i];
char *v = r_cmd_alias_val_strdup ((RCmdAliasVal *)val);
char *line = r_str_newf ("$%s=%s%s", k, val->is_data? "$": "", v);
r_line_completion_push (completion, line);
free (line);
free (v);
}
}
/* If 0 possible completions, do nothing */
free ((void*)c.valid_completions);
free ((void*)c.valid_completion_vals);
}
static void autocomplete_process_path(RLineCompletion *completion, const char *str, const char *path) {
char *lpath = NULL, *dirname = NULL , *basename = NULL;
char *home = NULL, *filename = NULL, *p = NULL;
int n = 0;
bool is_pipe = false; // currently unused, might help complete without space after '>'
if (!path) {
goto out;
}
#if 0
if (path[0] == '>') {
is_pipe = true;
path++;
}
#endif
lpath = strdup (path);
#if R2__WINDOWS__
r_str_replace_ch (lpath, '/', '\\', true);
#endif
p = (char *)r_str_last (lpath, R_SYS_DIR);
if (p) {
*p = 0;
if (p == lpath) { // /xxx
#if R2__WINDOWS__
dirname = strdup ("\\.\\");
#else
dirname = strdup (R_SYS_DIR);
#endif
} else if (lpath[0] == '~' && lpath[1]) { // ~/xxx/yyy
dirname = r_file_home (lpath + 2);
} else if (lpath[0] == '~') { // ~/xxx
if (!(home = r_file_home (NULL))) {
goto out;
}
dirname = r_str_newf ("%s%s", home, R_SYS_DIR);
free (home);
} else if (lpath[0] == '.' || lpath[0] == R_SYS_DIR[0] ) { // ./xxx/yyy || /xxx/yyy
dirname = r_str_newf ("%s%s", lpath, R_SYS_DIR);
} else { // xxx/yyy
char *fmt = ".%s%s%s";
#if R2__WINDOWS__
if (strchr (path, ':')) {
fmt = "%.0s%s%s";
}
#endif
dirname = r_str_newf (fmt, R_SYS_DIR, lpath, R_SYS_DIR);
}
basename = strdup (p + 1);
} else { // xxx
dirname = r_str_newf (".%s", R_SYS_DIR);
basename = strdup (lpath);
}
if (!dirname || !basename) {
goto out;
}
RList *list = r_sys_dir (dirname);
n = strlen (basename);
bool chgdir = !strncmp (str, "cd ", 3);
if (list) {
RListIter *iter;
r_list_foreach (list, iter, filename) {
if (*filename == '.') {
continue;
}
if (!basename[0] || !strncmp (filename, basename, n)) {
char *tmpstring = r_str_newf ("%s%s%s", is_pipe? ">": "",
dirname, filename);
if (r_file_is_directory (tmpstring)) {
char *s = r_str_newf ("%s%s", tmpstring, R_SYS_DIR);
r_line_completion_push (completion, s);
free (s);
} else if (!chgdir) {
r_line_completion_push (completion, tmpstring);
}
free (tmpstring);
}
}
r_list_free (list);
}
out:
free (lpath);
free (dirname);
free (basename);
}
static void autocomplete_filename(RLineCompletion *completion, RLineBuffer *buf, RCmd *cmd, char **extra_paths, int narg) {
char *args = NULL, *input = NULL;
int n = 0, i = 0;
char *pipe = strchr (buf->data, '>');
if (pipe) {
args = strdup (pipe);
#if 0
if (pipe[1] == ' ') {
// currently unreachable
narg++;
}
#endif
} else {
args = R_STR_DUP (buf->data);
}
if (!args) {
goto out;
}
n = r_str_word_set0 (args);
if (n < narg) {
goto out;
}
input = R_STR_DUP (r_str_word_get0 (args, narg));
if (!input) {
goto out;
}
const char *tinput = r_str_trim_head_ro (input);
if (input[0] == '$') {
// Only show existing data aliases
autocomplete_alias (completion, cmd, input + 1, true);
goto out;
}
autocomplete_process_path (completion, buf->data, tinput);
if (input[0] == '/' || input[0] == '.' || !extra_paths) {
goto out;
}
for (i = 0; extra_paths[i]; i ++) {
char *s = r_str_newf ("%s%s%s", extra_paths[i], R_SYS_DIR, tinput);
if (!s) {
break;
}
autocomplete_process_path (completion, buf->data, s);
free (s);
}
out:
free (args);
free (input);
}
//TODO: make it recursive to handle nested struct
static int autocomplete_pfele(RCore *core, RLineCompletion *completion, char *key, char *pfx, int idx, char *ptr) {
int i, ret = 0;
int len = strlen (ptr);
char* fmt = sdb_get (core->print->formats, key, NULL);
if (fmt) {
int nargs = r_str_word_set0_stack (fmt);
if (nargs > 1) {
for (i = 1; i < nargs; i++) {
const char *arg = r_str_word_get0 (fmt, i);
char *p = strchr (arg, '(');
char *p2 = strchr (arg, ')');
// remove '(' and ')' from fmt
if (p && p2) {
arg = p + 1;
*p2 = '\0';
}
if (!len || !strncmp (ptr, arg, len)) {
char *s = r_str_newf ("pf%s.%s.%s", pfx, key, arg);
r_line_completion_push (completion, s);
free (s);
}
}
}
}
free (fmt);
return ret;
}
#define ADDARG(x) if (!strncmp (buf->data+chr, x, strlen (buf->data+chr))) { r_line_completion_push (completion, x); }
static void autocomplete_default(R_NULLABLE RCore *core, RLineCompletion *completion, RLineBuffer *buf) {
RCoreAutocomplete *a = core ? core->autocomplete : NULL;
int i;
if (a) {
for (i = 0; i < a->n_subcmds; i++) {
if (buf->data[0] == 0 || !strncmp (a->subcmds[i]->cmd, buf->data, a->subcmds[i]->length)) {
r_line_completion_push (completion, a->subcmds[i]->cmd);
}
}
} else {
for (i = 0; i < radare_argc && radare_argv[i]; i++) {
int length = strlen (radare_argv[i]);
if (!strncmp (radare_argv[i], buf->data, length)) {
r_line_completion_push (completion, radare_argv[i]);
}
}
}
}
static void autocomplete_evals(RCore *core, RLineCompletion *completion, const char *str) {
R_RETURN_IF_FAIL (str);
RConfigNode *bt;
RListIter *iter;
const char *tmp = strrchr (str, ' ');
if (tmp) {
str = tmp + 1;
}
size_t n = strlen (str);
r_list_foreach (core->config->nodes, iter, bt) {
if (!strncmp (bt->name, str, n)) {
r_line_completion_push (completion, bt->name);
}
}
}
static void autocomplete_project(RCore *core, RLineCompletion *completion, const char* str) {
R_RETURN_IF_FAIL (str);
char *foo, *projects_path = r_file_abspath (r_config_get (core->config, "dir.projects"));
RList *list = r_sys_dir (projects_path);
RListIter *iter;
int n = strlen (str);
if (projects_path) {
r_list_foreach (list, iter, foo) {
if (r_core_is_project (core, foo)) {
if (!strncmp (foo, str, n)) {
r_line_completion_push (completion, foo);
}
}
}
free (projects_path);
r_list_free (list);
}
}
static void autocomplete_minus(RCore *core, RLineCompletion *completion, const char *str) {
R_RETURN_IF_FAIL (str);
int length = strlen (str);
int i;
char **keys = (char **)r_cmd_alias_keys (core->rcmd);
for (i = 0; i < core->rcmd->aliases->count; i++) {
if (!strncmp (keys[i], str, length)) {
r_line_completion_push (completion, keys[i]);
}
}
free (keys);
}
static void autocomplete_breakpoints(RCore *core, RLineCompletion *completion, const char *str) {
R_RETURN_IF_FAIL (str);
RListIter *iter;
RBreakpoint *bp = core->dbg->bp;
RBreakpointItem *b;
int n = strlen (str);
r_list_foreach (bp->bps, iter, b) {
char *addr = r_str_newf ("0x%"PFMT64x, b->addr);
if (!strncmp (addr, str, n)) {
r_line_completion_push (completion, addr);
}
free (addr);
}
}
static bool add_argv(RFlagItem *fi, void *user) {
RLineCompletion *completion = user;
r_line_completion_push (completion, fi->name);
return true;
}
static void autocomplete_flags(RCore *core, RLineCompletion *completion, const char* str) {
R_RETURN_IF_FAIL (str);
int n = strlen (str);
r_flag_foreach_prefix (core->flags, str, n, add_argv, completion);
}
// TODO: Should be refactored
static void autocomplete_sdb(RCore *core, RLineCompletion *completion, const char *str) {
R_RETURN_IF_FAIL (core && completion && str);
char *pipe = strchr (str, '>');
Sdb *sdb = core->sdb;
char *lpath = NULL, *p1 = NULL, *out = NULL, *p2 = NULL;
char *cur_pos = NULL, *cur_cmd = NULL, *next_cmd = NULL;
char *temp_cmd = NULL, *temp_pos = NULL, *key = NULL;
if (pipe) {
str = r_str_trim_head_ro (pipe + 1);
}
lpath = strdup (str);
p1 = strchr (lpath, '/');
if (p1) {
*p1 = 0;
char *ns = p1 + 1;
p2 = strchr (ns, '/');
if (!p2) { // anal/m
char *tmp = p1 + 1;
int n = strlen (tmp);
out = sdb_querys (sdb, NULL, 0, "anal/**");
if (!out) {
return;
}
while (*out) {
cur_pos = strchr (out, '\n');
if (!cur_pos) {
break;
}
cur_cmd = r_str_ndup (out, cur_pos - out);
if (!strncmp (tmp, cur_cmd, n)) {
char *cmplt = r_str_newf ("anal/%s/", cur_cmd);
r_line_completion_push (completion, cmplt);
free (cmplt);
}
out += cur_pos - out + 1;
}
} else { // anal/meta/*
char *tmp = p2 + 1;
int n = strlen (tmp);
char *spltr = strchr (ns, '/');
*spltr = 0;
next_cmd = r_str_newf ("anal/%s/*", ns);
out = sdb_querys (sdb, NULL, 0, next_cmd);
if (!out) {
free (lpath);
return;
}
while (*out) {
temp_pos = strchr (out, '\n');
if (!temp_pos) {
break;
}
temp_cmd = r_str_ndup (out, temp_pos - out); // contains the key=value pair
key = strchr (temp_cmd, '=');
*key = 0;
if (!strncmp (tmp, temp_cmd, n)) {
char *cmplt = r_str_newf ("anal/%s/%s", ns, temp_cmd);
r_line_completion_push (completion, cmplt);
free (cmplt);
}
out += temp_pos - out + 1;
}
}
} else {
int n = strlen (lpath);
if (!strncmp (lpath, "anal", n)) {
r_line_completion_push (completion, "anal/");
}
}
}
static void autocomplete_zignatures(RCore *core, RLineCompletion *completion, const char* msg) {
R_RETURN_IF_FAIL (msg);
int length = strlen (msg);
RSpaces *zs = &core->anal->zign_spaces;
RSpace *s;
RSpaceIter *it;
r_spaces_foreach (zs, it, s) {
if (!strncmp (msg, s->name, length)) {
r_line_completion_push (completion, s->name);
}
}
if (strlen (msg) == 0) {
r_line_completion_push (completion, "*");
}
}
static void autocomplete_flagspaces(RCore *core, RLineCompletion *completion, const char* msg) {
R_RETURN_IF_FAIL (msg);
int length = strlen (msg);
RFlag *flag = core->flags;
RSpaceIter *it;
RSpace *s;
r_flag_space_foreach (flag, it, s) {
if (!strncmp (msg, s->name, length)) {
r_line_completion_push (completion, s->name);
}
}
if (strlen (msg) == 0) {
r_line_completion_push (completion, "*");
}
}
static void autocomplete_functions(RCore *core, RLineCompletion *completion, const char* str) {
R_RETURN_IF_FAIL (str);
RListIter *iter;
RAnalFunction *fcn;
int n = strlen (str);
r_list_foreach (core->anal->fcns, iter, fcn) {
char *name = r_core_anal_fcn_name (core, fcn);
if (!strncmp (name, str, n)) {
r_line_completion_push (completion, name);
}
free (name);
}
}
static void autocomplete_vars(RCore *core, RLineCompletion *completion, const char* str) {
R_RETURN_IF_FAIL (str);
RAnalFunction *fcn = r_anal_get_fcn_in (core->anal, core->offset, 0);
if (!fcn) {
return;
}
RListIter *iter;
RAnalVar *var;
size_t len = strlen (str);
RList *vars = r_anal_var_all_list (core->anal, fcn);
r_list_foreach (vars, iter, var) {
if (!strncmp (var->name, str, len)) {
r_line_completion_push (completion, var->name);
}
}
r_list_free (vars);
}
static void autocomplete_macro(RCore *core, RLineCompletion *completion, const char *str) {
R_RETURN_IF_FAIL (core && core->rcmd && completion && str);
RCmdMacroItem *item;
RListIter *iter;
size_t n = strlen (str);
r_list_foreach (core->rcmd->macro.macros, iter, item) {
char *p = item->name;
if (!*str || !strncmp (str, p, n)) {
char *buf = r_str_newf ("%s%s)", str, p);
if (buf) {
r_line_completion_push (completion, buf);
free (buf);
}
}
}
}
static void autocomplete_file(RLineCompletion *completion, const char *str) {
R_RETURN_IF_FAIL (completion && str);
char *pipe = strchr (str, '>');
if (pipe) {
str = r_str_trim_head_ro (pipe + 1);
}
const char *arg = (str && !*str)? "./": str;
autocomplete_process_path (completion, str, arg);
}
static void autocomplete_ms_file(RCore* core, RLineCompletion *completion, const char *str) {
R_RETURN_IF_FAIL (str);
char *pipe = strchr (str, '>');
char *path = strdup ((core->rfs->cwd && *core->rfs->cwd) ? (const char *)core->rfs->cwd: "/");
if (pipe) {
str = r_str_trim_head_ro (pipe + 1);
}
const char *arg = (str && !*str)? path: str;
autocomplete_ms_path (completion, core, str, arg);
free (path);
}
static void autocomplete_charsets(RCore *core, RLineCompletion *completion, const char *str) {
R_RETURN_IF_FAIL (str);
int len = strlen (str);
char *name;
RListIter *iter;
RList *chs = r_charset_list (core->print->charset);
r_list_foreach (chs, iter, name) {
if (!len || !strncmp (str, name, len)) {
r_line_completion_push (completion, name);
}
}
r_list_free (chs);
}
static void autocomplete_theme(RCore *core, RLineCompletion *completion, const char *str) {
R_RETURN_IF_FAIL (str);
int len = strlen (str);
char *theme;
RListIter *iter;
RList *themes = r_core_list_themes (core);
r_list_foreach (themes, iter, theme) {
if (!len || !strncmp (str, theme, len)) {
r_line_completion_push (completion, theme);
}
}
r_list_free (themes);
}
static bool find_e_opts(RCore *core, RLineCompletion *completion, RLineBuffer *buf) {
// required to get the new list of items to autocomplete for cmd.pdc at least
r_core_config_update (core);
char *str = (char *)r_str_trim_head_ro (buf->data + 1);
char *eq = strchr (str, '=');
if (!eq) {
return false;
}
*eq = 0;
char *k = r_str_trim_dup (str);
RConfigNode *node = r_config_node_get (core->config, k);
free (k);
*eq = '=';
if (!node) {
return false;
}
const char *p = r_str_trim_head_ro (eq + 1);
int n = strlen (p);
if (node->flags & 1) {
if (!strncmp ("true", p, n)) {
r_line_completion_push (completion, "true");
}
if (!strncmp ("false", p, n)) {
r_line_completion_push (completion, "false");
}
} else {
RListIter *iter;
char *option;
r_list_foreach (node->options, iter, option) {
if (!strncmp (option, p, n)) {
r_line_completion_push (completion, option);
}
}
}
completion->opt = true;
return true;
}
static bool find_autocomplete(RCore *core, RLineCompletion *completion, RLineBuffer *buf) {
RCoreAutocomplete* child = NULL;
RCoreAutocomplete* parent = core->autocomplete;
const char* p = buf->data;
if (!*p) {
return false;
}
char arg[256];
arg[0] = 0;
while (*p) {
const char* e = r_str_trim_head_wp (p);
if (!e || (e - p) >= 256 || e == p) {
return false;
}
memcpy (arg, p, e - p);
arg[e - p] = 0;
child = r_core_autocomplete_find (parent, arg, false);
if (child && child->length < buf->length && p[child->length] == ' ') {
// if is spaced then i can provide the
// next subtree as suggestion..
p = r_str_trim_head_ro (p + child->length);
if (child->type == R_CORE_AUTOCMPLT_OPTN) {
continue;
}
parent = child;
} else {
break;
}
}
int i;
/* if something went wrong this will prevent bad behavior */
r_line_completion_clear (completion);
switch (parent->type) {
case R_CORE_AUTOCMPLT_SEEK:
autocomplete_functions (core, completion, p);
case R_CORE_AUTOCMPLT_FLAG:
autocomplete_flags (core, completion, p);
break;
case R_CORE_AUTOCMPLT_FLSP:
autocomplete_flagspaces (core, completion, p);
break;
case R_CORE_AUTOCMPLT_FCN:
autocomplete_functions (core, completion, p);
break;
case R_CORE_AUTOCMPLT_ZIGN:
autocomplete_zignatures (core, completion, p);
break;
case R_CORE_AUTOCMPLT_EVAL:
autocomplete_evals (core, completion, p);
break;
case R_CORE_AUTOCMPLT_PRJT:
autocomplete_project (core, completion, p);
break;
case R_CORE_AUTOCMPLT_MINS:
autocomplete_minus (core, completion, p);
break;
case R_CORE_AUTOCMPLT_BRKP:
autocomplete_breakpoints (core, completion, p);
break;
case R_CORE_AUTOCMPLT_VARS:
autocomplete_vars (core, completion, p);
break;
case R_CORE_AUTOCMPLT_MACR:
autocomplete_macro (core, completion, p);
break;
case R_CORE_AUTOCMPLT_MS:
autocomplete_ms_file (core, completion, p);
break;
case R_CORE_AUTOCMPLT_FILE:
autocomplete_file (completion, p);
break;
case R_CORE_AUTOCMPLT_THME:
autocomplete_theme (core, completion, p);
break;
case R_CORE_AUTOCMPLT_CHRS:
autocomplete_charsets (core, completion, p);
break;
case R_CORE_AUTOCMPLT_SDB:
autocomplete_sdb (core, completion, p);
break;
case R_CORE_AUTOCMPLT_OPTN:
// handled before
break;
default:
if (r_config_get_b (core->config, "cfg.newtab")) {
RCmdDescriptor *desc = &core->root_cmd_descriptor;
for (i = 0; arg[i] && desc; i++) {
ut8 c = arg[i];
desc = c < R_ARRAY_SIZE (desc->sub) ? desc->sub[c] : NULL;
}
if (desc && desc->help_msg) {
r_core_cmd_help (core, desc->help_msg);
r_cons_flush ();
return true;
}
// fallback to command listing
}
int length = strlen (arg);
for (i = 0; i < parent->n_subcmds; i++) {
if (!strncmp (arg, parent->subcmds[i]->cmd, length)) {
r_line_completion_push (completion, parent->subcmds[i]->cmd);
}
}
break;
}
return true;
}
static bool check_tabhelp_exceptions(const char *s) {
if (r_str_startswith (s, "pf.")) {
return true;
}
if (r_str_startswith (s, "pfc.")) {
return true;
}
if (r_str_startswith (s, "pfj.")) {
return true;
}
return false;
}
R_API void r_core_autocomplete(R_NULLABLE RCore *core, RLineCompletion *completion, RLineBuffer *buf, RLinePromptType prompt_type) {
if (!core) {
autocomplete_default (core, completion, buf);
return;
}
const bool tabhelp_exception = check_tabhelp_exceptions (buf->data);
if (!tabhelp_exception && r_config_get_b (core->config, "scr.prompt.tabhelp")) {
if (buf->data[0] != '$' // handle aliases below
&& strncmp (buf->data, "#!", 2) // rlang help fails
&& !strchr (buf->data, ' ')) {
r_line_completion_clear (completion);
char *s = r_core_cmd_strf (core, "%s?", buf->data);
eprintf ("%s%s\n%s", core->cons->line->prompt, buf->data, s);
free (s);
return;
}
}
r_line_completion_clear (completion);
char *pipe = strchr (buf->data, '>');
char *ptr = strchr (buf->data, '@');
if (pipe) {
/* XXX this doesn't handle filenames with spaces */
// accept "> " and ">"
char *pipe_space = pipe[1] == ' '
? strchr (pipe + 2, ' ')
: strchr (pipe, ' ');
bool should_complete = buf->data + buf->index >= pipe;
if (pipe_space) {
should_complete &= buf->data + buf->index < pipe_space;
}
if (should_complete) {
if (pipe[1] != ' ') {
r_line_completion_push (completion, ">");
return;
}
autocomplete_filename (completion, buf, core->rcmd, NULL, 1);
}
} else if (ptr) {
char *ptr_space = ptr[1] == ' '
? strchr (ptr + 2, ' ')
: strchr (ptr, ' ');
bool should_complete = buf->data + buf->index >= ptr;
if (ptr_space) {
should_complete &= buf->data + buf->index < ptr_space;
}
if (should_complete) {
if (ptr[1] != ' ') {
r_line_completion_push (completion, "@");
return;
}
autocomplete_flags (core, completion, ptr+2);
}
} else if (r_str_startswith (buf->data, "#!pipe ")) {
if (strchr (buf->data + 7, ' ')) {
autocomplete_filename (completion, buf, core->rcmd, NULL, 2);
} else {
int chr = 7;
ADDARG ("node");
ADDARG ("vala");
ADDARG ("ruby");
ADDARG ("newlisp");
ADDARG ("perl");
ADDARG ("python");
}
} else if (r_str_startswith (buf->data, "ec ")) {
if (strchr (buf->data + 3, ' ')) {
autocomplete_filename (completion, buf, core->rcmd, NULL, 2);
} else {
int chr = 3;
ADDARG ("comment");
ADDARG ("usrcmt");
ADDARG ("args");
ADDARG ("fname");
ADDARG ("floc");
ADDARG ("fline");
ADDARG ("flag");
ADDARG ("label");
ADDARG ("help");
ADDARG ("flow");
ADDARG ("prompt");
ADDARG ("offset");
ADDARG ("input");
ADDARG ("invalid");
ADDARG ("other");
ADDARG ("b0x00");
ADDARG ("b0x7f");
ADDARG ("b0xff");
ADDARG ("math");
ADDARG ("bin");
ADDARG ("btext");
ADDARG ("push");
ADDARG ("pop");
ADDARG ("crypto");
ADDARG ("jmp");
ADDARG ("cjmp");
ADDARG ("call");
ADDARG ("nop");
ADDARG ("ret");
ADDARG ("trap");
ADDARG ("swi");
ADDARG ("cmp");
ADDARG ("reg");
ADDARG ("creg");
ADDARG ("num");
ADDARG ("mov");
ADDARG ("var");
ADDARG ("var.type");
ADDARG ("var.addr");
ADDARG ("var.name");
ADDARG ("widget.bg");
ADDARG ("widget.sel");
ADDARG ("ai.read");
ADDARG ("ai.write");
ADDARG ("ai.exec");
ADDARG ("ai.seq");
ADDARG ("ai.ascii");
ADDARG ("ai.unmap");
ADDARG ("graph.box");
ADDARG ("graph.box2");
ADDARG ("graph.box3");
ADDARG ("graph.box4");
ADDARG ("graph.true");
ADDARG ("graph.false");
ADDARG ("graph.trufae");
ADDARG ("graph.current");
ADDARG ("graph.traced");
ADDARG ("gui.cflow");
ADDARG ("gui.dataoffset");
ADDARG ("gui.background");
ADDARG ("gui.background2");
ADDARG ("gui.border");
ADDARG ("diff.unknown");
ADDARG ("diff.new");
ADDARG ("diff.match");
ADDARG ("diff.unmatch");
}
} else if (r_str_startswith (buf->data, "pf.")
|| r_str_startswith (buf->data, "pf*.")
|| r_str_startswith (buf->data, "pfd.")
|| r_str_startswith (buf->data, "pfc.")
|| r_str_startswith (buf->data, "pfv.")
|| r_str_startswith (buf->data, "pfj.")
) {
char pfx[2];
int chr = (buf->data[2] == '.')? 3: 4;
if (chr == 4) {
pfx[0] = buf->data[2];
pfx[1] = 0;
} else {
*pfx = 0;
}
SdbList *sls = sdb_foreach_list (core->print->formats, false);
SdbListIter *iter;
SdbKv *kv;
ls_foreach (sls, iter, kv) {
int len = strlen (buf->data + chr);
int minlen = R_MIN (len, strlen (sdbkv_key (kv)));
if (!len || !strncmp (buf->data + chr, sdbkv_key (kv), minlen)) {
char *p = strchr (buf->data + chr, '.');
if (p) {
autocomplete_pfele (core, completion, sdbkv_key (kv), pfx, 0, p + 1);
break;
} else {
char *s = r_str_newf ("pf%s.%s", pfx, sdbkv_key (kv));
r_line_completion_push (completion, s);
free (s);
}
}
}
} else if (!strncmp (buf->data, "t ", 2) || !strncmp (buf->data, "t- ", 3)) {
SdbList *l = sdb_foreach_list (core->anal->sdb_types, true);
SdbListIter *iter;
SdbKv *kv;
int chr = (buf->data[1] == ' ')? 2: 3;
ls_foreach (l, iter, kv) {
int len = strlen (buf->data + chr);
if (!len || !strncmp (buf->data + chr, sdbkv_key (kv), len)) {
if (!strcmp (sdbkv_value (kv), "type")
|| !strcmp (sdbkv_value (kv), "enum")
|| !strcmp (sdbkv_value (kv), "struct")) {
r_line_completion_push (completion, sdbkv_key (kv));
}
}
}
ls_free (l);
} else if ((!strncmp (buf->data, "te ", 3))) {
SdbList *l = sdb_foreach_list (core->anal->sdb_types, true);
SdbListIter *iter;
SdbKv *kv;
int chr = 3;
ls_foreach (l, iter, kv) {
int len = strlen (buf->data + chr);
if (!len || !strncmp (buf->data + chr, sdbkv_key (kv), len)) {
if (!strcmp (sdbkv_value (kv), "enum")) {
r_line_completion_push (completion, sdbkv_key (kv));
}
}
}
ls_free (l);
} else if (buf->data[0] == '$') {
autocomplete_alias (completion, core->rcmd, buf->data + 1, false);
} else if (!strncmp (buf->data, "ts ", 3)
|| !strncmp (buf->data, "ta ", 3)
|| !strncmp (buf->data, "tp ", 3)
|| !strncmp (buf->data, "tl ", 3)
|| !strncmp (buf->data, "tpx ", 4)
|| !strncmp (buf->data, "tss ", 4)
|| !strncmp (buf->data, "ts* ", 4)) {
SdbList *l = sdb_foreach_list (core->anal->sdb_types, true);
SdbListIter *iter;
SdbKv *kv;
int chr = (buf->data[2] == ' ')? 3: 4;
ls_foreach (l, iter, kv) {
int len = strlen (buf->data + chr);
const char *key = sdbkv_key (kv);
if (!len || !strncmp (buf->data + chr, key, len)) {
if (!strncmp (sdbkv_value (kv), "struct", strlen ("struct") + 1)) {
r_line_completion_push (completion, key);
}
}
}
ls_free (l);
} else if (r_str_startswith (buf->data, "zo ") || r_str_startswith (buf->data, "zoz ")) {
if (core->anal->zign_path && core->anal->zign_path[0]) {
char *zignpath = r_file_abspath (core->anal->zign_path);
char *paths[2] = { zignpath, NULL };
autocomplete_filename (completion, buf, core->rcmd, paths, 1);
free (zignpath);
} else {
autocomplete_filename (completion, buf, core->rcmd, NULL, 1);
}
} else if (find_e_opts (core, completion, buf)) {
return;
} else if (prompt_type == R_LINE_PROMPT_OFFSET) {
autocomplete_flags (core, completion, buf->data);
} else if (prompt_type == R_LINE_PROMPT_FILE) {
autocomplete_file (completion, buf->data);
} else if (!find_autocomplete (core, completion, buf)) {
autocomplete_default (core, completion, buf);
}
}
static int autocomplete(RLineCompletion *completion, RLineBuffer *buf, RLinePromptType prompt_type, void *user) {
RCore *core = user;
r_core_autocomplete (core, completion, buf, prompt_type);
return true;
}
R_API int r_core_fgets(char *buf, int len) {
R_RETURN_VAL_IF_FAIL (buf, -1);
RCons *cons = r_cons_singleton ();
RLine *rli = cons->line;
#if R2_590
cons->maxlength = len; /// R2_590
#endif
bool prompt = cons->context->is_interactive;
buf[0] = '\0';
if (prompt) {
r_line_completion_set (&rli->completion, radare_argc, radare_argv);
rli->completion.run = autocomplete;
rli->completion.run_user = rli->user;
} else {
r_line_hist_free ();
r_line_completion_set (&rli->completion, 0, NULL);
rli->completion.run = NULL;
rli->completion.run_user = NULL;
}
const char *ptr = r_line_readline ();
if (!ptr) {
return -1;
}
if (cons->line->buffer.length >= len - 2) {
R_LOG_ERROR ("input is too large");
*buf = 0;
return 0;
}
return r_str_ncpy (buf, ptr, len - 1);
}
static const char *r_core_print_offname(void *p, ut64 addr) {
RCore *c = (RCore*)p;
RFlagItem *item = r_flag_get_i (c->flags, addr);
return item ? item->name : NULL;
}
static int r_core_print_offsize(void *p, ut64 addr) {
RCore *c = (RCore*)p;
RFlagItem *item = r_flag_get_i (c->flags, addr);
return item ? item->size: -1;
}
/**
* Disassemble one instruction at specified address.
*/
static int __disasm(void *_core, ut64 addr) {
RCore *core = _core;
ut64 prevaddr = core->offset;
r_core_seek (core, addr, true);
int len = r_core_print_disasm_instructions (core, 0, 1);
r_core_seek (core, prevaddr, true);
return len;
}
static void update_sdb(RCore *core) {
Sdb *d;
RBinObject *o;
if (!core) {
return;
}
//SDB// anal/
if (core->anal && core->anal->sdb) {
sdb_ns_set (DB, "anal", core->anal->sdb);
}
//SDB// bin/
if (core->bin && core->bin->sdb) {
sdb_ns_set (DB, "bin", core->bin->sdb);
}
//SDB// bin/info
o = r_bin_cur_object (core->bin);
if (o) {
sdb_ns_set (sdb_ns (DB, "bin", 1), "info", o->kv);
}
//sdb_ns_set (core->sdb, "flags", core->flags->sdb);
//sdb_ns_set (core->sdb, "bin", core->bin->sdb);
//SDB// syscall/
if (core->rasm && core->rasm->syscall && core->rasm->syscall->db) {
core->rasm->syscall->db->refs++;
sdb_ns_set (DB, "syscall", core->rasm->syscall->db);
}
d = sdb_ns (DB, "debug", 1);
if (core->dbg->sgnls) {
core->dbg->sgnls->refs++;
sdb_ns_set (d, "signals", core->dbg->sgnls);
}
}
#define MINLEN 1
static int is_string(const ut8 *buf, int size, int *len) {
int i;
if (size < 1) {
return 0;
}
if (size > 3 && buf[0] && !buf[1] && buf[2] && !buf[3]) {
*len = 1; // XXX: TODO: Measure wide string length
return 2; // is wide
}
for (i = 0; i < size; i++) {
if (!buf[i] && i > MINLEN) {
*len = i;
return 1;
}
if (buf[i] == 10|| buf[i] == 13|| buf[i] == 9) {
continue;
}
if (buf[i] < 32 || buf[i] > 127) {
// not ascii text
return 0;
}
if (!IS_PRINTABLE (buf[i])) {
*len = i;
return 0;
}
}
*len = i;
return 1;
}
R_API char *r_core_anal_hasrefs(RCore *core, ut64 value, int mode) {
if (mode) {
PJ *pj = (mode == 'j')? pj_new (): NULL;
const int hex_depth = 1; // r_config_get_i (core->config, "hex.depth");
char *res = r_core_anal_hasrefs_to_depth (core, value, pj, hex_depth);
if (pj) {
free (res);
return pj_drain (pj);
}
return res;
}
RFlagItem *fi = r_flag_get_i (core->flags, value);
return fi? strdup (fi->name): NULL;
}
static char *getvalue(ut64 value, int bits) {
switch (bits) {
case 16: // umf, not in sync with pxr
{
st16 v = (st16)(value & UT16_MAX);
st16 h = UT16_MAX / 0x100;
if (v > -h && v < h) {
return r_str_newf ("%hd", v);
}
}
break;
case 32:
{
st32 v = (st32)(value & UT32_MAX);
st32 h = UT32_MAX / 0x10000;
if (v > -h && v < h) {
return r_str_newf ("%d", v);
}
}
break;
case 64:
{
st64 v = (st64)(value);
st64 h = UT64_MAX / 0x1000000;
if (v > -h && v < h) {
return r_str_newf ("%"PFMT64d, v);
}
}
break;
}
return NULL;
}
/*
pxr logic is dupplicated in other places
* ai, ad
* no json support
*/
R_API char *r_core_anal_hasrefs_to_depth(RCore *core, ut64 value, PJ *pj, int depth) {
const int bits = core->rasm->config->bits;
R_RETURN_VAL_IF_FAIL (core, NULL);
RStrBuf *s = r_strbuf_new (NULL);
if (pj) {
pj_o (pj);
pj_kn (pj, "addr", value);
}
if (depth < 1 || value == UT64_MAX) {
if (pj) {
pj_end (pj);
}
return NULL;
}
char *val = getvalue (value, bits);
if (val) {
if (pj) {
pj_ks (pj, "value", val);
} else {
r_strbuf_appendf (s, "%s ", val);
}
R_FREE (val);
}
if (value && value != UT64_MAX) {
RDebugMap *map = r_debug_map_get (core->dbg, value);
if (map && map->name && map->name[0]) {
if (pj) {
pj_ks (pj, "map", map->name);
} else {
r_strbuf_appendf (s, "%s ", map->name);
}
}
}
ut64 type = r_core_anal_address (core, value);
RBinObject *bo = r_bin_cur_object (core->bin);
RBinSection *sect = (bo && value)? r_bin_get_section_at (bo, value, true): NULL;
if ((int)value < 0 && ((int)value > -0xffff)) {
ut64 dst = core->offset + (st32)value;
if (r_io_is_valid_offset (core->io, dst, false)) {
r_strbuf_appendf (s, " rptr(%d)=0x%08"PFMT64x" ", (int)value, dst);
value = dst;
}
}
if (! ((type & R_ANAL_ADDR_TYPE_HEAP) || (type & R_ANAL_ADDR_TYPE_STACK)) ) {
// Do not repeat "stack" or "heap" words unnecessarily.
if (sect && sect->name[0]) {
if (pj) {
pj_ks (pj, "section", sect->name);
} else {
r_strbuf_appendf (s, "%s ", sect->name);
}
}
}
if (value != 0 && value != UT64_MAX) {
if (pj) {
RListIter *iter;
RFlagItem *f;
const RList *flags = r_flag_get_list (core->flags, value);
if (flags && !r_list_empty (flags)) {
pj_ka (pj, "flags");
r_list_foreach (flags, iter, f) {
pj_s (pj, f->name);
}
pj_end (pj);
}
} else {
char *flags = r_flag_get_liststr (core->flags, value);
if (flags) {
r_strbuf_appendf (s, "%s ", flags);
free (flags);
}
}
}
RAnalFunction *fcn = r_anal_get_fcn_in (core->anal, value, 0);
if (fcn) {
if (pj) {
pj_ks (pj, "fcn", fcn->name);
} else {
r_strbuf_appendf (s, "%s ", fcn->name);
}
}
if (type) {
const char *c = r_core_anal_optype_colorfor (core, fcn? fcn->addr: value, value, true);
const char *cend = (R_STR_ISNOTEMPTY (c)) ? Color_RESET: "";
if (!c) {
c = "";
}
if (pj) {
pj_ka (pj, "attr");
}
if (type & R_ANAL_ADDR_TYPE_HEAP) {
if (pj) {
pj_s (pj, "heap");
} else {
r_strbuf_appendf (s, "%sheap%s ", c, cend);
}
} else if (type & R_ANAL_ADDR_TYPE_STACK) {
if (pj) {
pj_s (pj, "stack");
} else {
r_strbuf_appendf (s, "%sstack%s ", c, cend);
}
}
if (type & R_ANAL_ADDR_TYPE_PROGRAM) {
if (pj) {
pj_s (pj, "program");
} else {
r_strbuf_appendf (s, "%sprogram%s ", c, cend);
}
}
if (type & R_ANAL_ADDR_TYPE_LIBRARY) {
if (pj) {
pj_s (pj, "library");
} else {
r_strbuf_appendf (s, "%slibrary%s ", c, cend);
}
}
if (type & R_ANAL_ADDR_TYPE_ASCII) {
if (pj) {
pj_s (pj, "ascii");
} else {
r_strbuf_appendf (s, "%sascii%s ('%c') ", c, cend, (char)value);
}
}
if (type & R_ANAL_ADDR_TYPE_SEQUENCE) {
if (pj) {
pj_s (pj, "sequence");
} else {
r_strbuf_appendf (s, "%ssequence%s ", c, cend);
}
}
if (pj) {
if (type & R_ANAL_ADDR_TYPE_READ) {
pj_s (pj, "R");
}
if (type & R_ANAL_ADDR_TYPE_WRITE) {
pj_s (pj, "W");
}
if (type & R_ANAL_ADDR_TYPE_EXEC) {
pj_s (pj, "X");
}
} else {
if (type & R_ANAL_ADDR_TYPE_READ) {
r_strbuf_appendf (s, "%sR%s ", c, cend);
}
if (type & R_ANAL_ADDR_TYPE_WRITE) {
r_strbuf_appendf (s, "%sW%s ", c, cend);
}
if (type & R_ANAL_ADDR_TYPE_EXEC) {
RAnalOp op;
ut8 buf[32];
r_strbuf_appendf (s, "%sX%s ", c, cend);
/* instruction disassembly */
r_io_read_at (core->io, value, buf, sizeof (buf));
r_asm_set_pc (core->rasm, value);
r_asm_disassemble (core->rasm, &op, buf, sizeof (buf));
r_strbuf_appendf (s, "'%s' ", r_asm_op_get_asm (&op));
r_asm_op_fini (&op);
/* get library name */
{ // NOTE: dup for mapname?
RDebugMap *map;
RListIter *iter;
r_list_foreach (core->dbg->maps, iter, map) {
if ((value >= map->addr) &&
(value<map->addr_end)) {
const char *lastslash = r_str_lchr (map->name, '/');
r_strbuf_appendf (s, "'%s' ", lastslash?
lastslash + 1: map->name);
break;
}
}
}
} else if (type & R_ANAL_ADDR_TYPE_READ) {
ut8 buf[32];
ut32 *n32 = (ut32 *)buf;
ut64 *n64 = (ut64*)buf;
if (r_io_read_at (core->io, value, buf, sizeof (buf))) {
ut64 n = (bits == 64)? *n64: *n32;
r_strbuf_appendf (s, "0x%"PFMT64x" ", n);
}
}
}
if (pj) {
pj_end (pj);
}
}
{
ut8 buf[128], widebuf[256];
const char *c = r_config_get_i (core->config, "scr.color")? core->cons->context->pal.ai_ascii: "";
const char *cend = (c && *c) ? Color_RESET: "";
int len, r;
if (r_io_read_at (core->io, value, buf, sizeof (buf))) {
buf[sizeof (buf) - 1] = 0;
switch (is_string (buf, sizeof (buf), &len)) {
case 1:
if (pj) {
pj_ks (pj, "string", (const char *)buf);
} else {
r_strbuf_appendf (s, "%s%s%s ", c, buf, cend);
}
break;
case 2:
r = r_utf8_encode_str ((const RRune *)buf, widebuf, sizeof (widebuf) - 1);
if (r == -1) {
R_LOG_ERROR ("Something was wrong with refs");
} else {
if (pj) {
pj_ks (pj, "string", (const char *)widebuf);
} else {
r_strbuf_appendf (s, "%s%s%s ", c, widebuf, cend);
}
}
break;
}
}
}
if ((type & R_ANAL_ADDR_TYPE_READ) && !(type & R_ANAL_ADDR_TYPE_EXEC) && depth) {
// Try to telescope further, but only several levels deep.
ut8 buf[32];
ut32 *n32 = (ut32 *)buf;
ut64 *n64 = (ut64*)buf;
if (r_io_read_at (core->io, value, buf, sizeof (buf))) {
ut64 n = (bits == 64)? *n64: *n32;
if (n != value) {
if (pj) {
pj_k (pj, "ref");
}
char* rrstr = r_core_anal_hasrefs_to_depth (core, n, pj, depth - 1);
if (rrstr) {
if (!pj && rrstr[0]) {
r_strbuf_appendf (s, " -> %s", rrstr);
}
free (rrstr);
}
}
}
}
if (pj) {
pj_end (pj);
}
char *res = r_strbuf_drain (s);
r_str_trim_tail (res);
return res;
}
// XXX must be deprecated
static R_TH_LOCAL char *const_color = NULL;
R_API const char *colorforop(RCore *core, ut64 addr) {
RList *fcns = r_anal_get_functions_in (core->anal, addr);
if (r_list_empty (fcns)) {
r_list_free (fcns);
return NULL;
}
RAnalFunction *fcn = r_list_pop (fcns);
r_list_free (fcns);
if (!fcn) {
return NULL;
}
RListIter *iter;
RAnalBlock *bb;
r_list_foreach (fcn->bbs, iter, bb) {
if (addr >= bb->addr && addr < (bb->addr + bb->size)) {
ut64 opat = r_anal_bb_opaddr_at (bb, addr);
RAnalOp *op = r_core_anal_op (core, opat, 0);
if (op) {
const char* res = r_print_color_op_type (core->print, op->type);
r_anal_op_free (op);
return res;
}
break;
}
}
return NULL;
}
R_API const char *r_core_anal_optype_colorfor(RCore *core, ut64 addr, ut8 ch, bool verbose) {
if (!(core->print->flags & R_PRINT_FLAGS_COLOR)) {
return NULL;
}
if (!verbose && (core->print->flags & R_PRINT_FLAGS_COLOROP)) {
// if function in place check optype for given offset
return colorforop (core, addr);
}
if (!r_config_get_i (core->config, "scr.color")) {
return NULL;
}
if (!verbose) {
// check for flag colors
RFlagItem *fi = r_flag_get_at (core->flags, addr, true);
if (fi && fi->offset + fi->size >= addr && fi->color) {
free (const_color);
const_color = r_cons_pal_parse (fi->color, NULL);
return const_color;
}
return NULL;
}
ut64 type = r_core_anal_address (core, addr);
if (type & R_ANAL_ADDR_TYPE_EXEC) {
return core->cons->context->pal.ai_exec; //Color_RED;
}
if (type & R_ANAL_ADDR_TYPE_WRITE) {
return core->cons->context->pal.ai_write; //Color_BLUE;
}
if (type & R_ANAL_ADDR_TYPE_READ) {
return core->cons->context->pal.ai_read; //Color_GREEN;
}
if (type & R_ANAL_ADDR_TYPE_SEQUENCE) {
return core->cons->context->pal.ai_seq; //Color_MAGENTA;
}
if (type & R_ANAL_ADDR_TYPE_ASCII) {
return core->cons->context->pal.ai_ascii; //Color_YELLOW;
}
return NULL;
}
static void r_core_setenv(RCore *core) {
char *e = r_sys_getenv ("PATH");
char *h = r_xdg_datadir ("prefix/bin"); // support \\ on windows :?
char *n = r_str_newf ("%s%s%s", h, R_SYS_ENVSEP, e);
r_sys_setenv ("PATH", n);
{
char *cpstr = r_str_newf ("%p", core);
r_sys_setenv ("R2CORE", cpstr);
free (cpstr);
}
free (n);
free (h);
free (e);
}
static int mywrite(const ut8 *buf, int len) {
return r_cons_write ((const char *)buf, len);
}
static bool exists_var(RPrint *print, ut64 func_addr, char *str) {
RAnal *anal = ((RCore*)(print->user))->anal;
RAnalFunction *fcn = r_anal_get_function_at (anal, func_addr);
if (!fcn) {
return false;
}
return !!r_anal_function_get_var_byname (fcn, str);
}
static bool r_core_anal_log(struct r_anal_t *anal, const char *msg) {
RCore *core = anal->user;
if (core->cfglog) {
r_core_log_add (core, msg);
}
return true;
}
static bool r_core_anal_read_at(struct r_anal_t *anal, ut64 addr, ut8 *buf, int len) {
return r_io_read_at (anal->iob.io, addr, buf, len);
}
static void *r_core_sleep_begin(RCore *core) {
R_CRITICAL_ENTER (core);
RCoreTask *task = r_core_task_self (&core->tasks);
if (task) {
r_core_task_sleep_begin (task);
}
R_CRITICAL_LEAVE (core);
return task;
}
static void r_core_sleep_end(RCore *core, void *user) {
R_CRITICAL_ENTER (core);
RCoreTask *task = (RCoreTask *)user;
if (task) {
r_core_task_sleep_end (task);
}
R_CRITICAL_LEAVE (core);
}
static void __foreach(RCore *core, const char **cmds, int type) {
int i;
for (i = 0; cmds[i]; i++) {
r_core_autocomplete_add (core->autocomplete, cmds[i], type, true);
}
}
static void __init_autocomplete_default(RCore* core) {
// TODO: if we sort those strings alphabetically we can probably break earlier
const char *fcns[] = {
"afi", "afcf", "afn", "afm", NULL
};
const char *seeks[] = {
"s", NULL
};
const char *flags[] = {
"*", "s", "s+", "b", "f", "fg", "?", "?v", "ad", "bf", "c1", "db", "dbw",
"f-", "fr", "tf", "/a", "/v", "/r", "/re", "aav", "aep", "aef", "afb", "o=",
"afc", "axg", "axt", "axf", "dcu", "ag", "agfl", "aecu", "aesu", "aeim", NULL
};
const char *evals[] = {
"-e", "e", "ee", "et", "e?", "e!", "ev", "evj", NULL
};
const char *breaks[] = {
"db-", "dbc", "dbC", "dbd", "dbe", "dbs", "dbi", "dbte", "dbtd", "dbts", NULL
};
const char *files[] = {
".", "..", ".*", "/F", "/m", "!", "!!", "#!c", "#!v", "#!cpipe", "#!qjs", "#!tiny", "#!vala", "v.",
"#!rust", "#!zig", "#!pipe", "#!python", "aeli", "arp", "arpg", "dmd", "drp", "drpg", "oe", "ot", "o+", "o++", "on", "open",
"idp", "idpi", "L", "obf", "o+", "o", "oc", "of", "r2", "rabin2", "rasm2", "rahash2", "rax2", "wff",
"rafind2", "cd", "ls", "lua", "on", "wf", "rm", "wF", "wp", "Sd", "Sl", "to", "pm",
"/m", "zos", "zfd", "zfs", "zfz", "cat", "wta", "wtf", "wxf", "dml", "dd", "dd+",
"vi", "vim", "nvi", "neovim", "nvim", "nano", "-i", "yr",
#if R2__WINDOWS__
"notepad",
#endif
"less", "head", "tail", NULL
};
const char *vars[] = {
"afvn", "afan", NULL
};
const char *projs[] = {
"Pc", "Pd", "Pi", "Po", "Ps", "P-", NULL
};
const char *mounts[] = {
"m", "md", "mg", "mo", "ms", "mc", "mi", "mw", NULL
};
__foreach (core, files, R_CORE_AUTOCMPLT_FILE);
__foreach (core, flags, R_CORE_AUTOCMPLT_FLAG);
__foreach (core, seeks, R_CORE_AUTOCMPLT_SEEK);
__foreach (core, fcns, R_CORE_AUTOCMPLT_FCN);
__foreach (core, evals, R_CORE_AUTOCMPLT_EVAL);
__foreach (core, vars, R_CORE_AUTOCMPLT_VARS);
__foreach (core, breaks, R_CORE_AUTOCMPLT_BRKP);
__foreach (core, projs, R_CORE_AUTOCMPLT_PRJT);
__foreach (core, mounts, R_CORE_AUTOCMPLT_MS);
r_core_autocomplete_add (core->autocomplete, "-", R_CORE_AUTOCMPLT_MINS, true);
r_core_autocomplete_add (core->autocomplete, "zs", R_CORE_AUTOCMPLT_ZIGN, true);
r_core_autocomplete_add (core->autocomplete, "fs", R_CORE_AUTOCMPLT_FLSP, true);
r_core_autocomplete_add (
r_core_autocomplete_add (core->autocomplete, "ls", R_CORE_AUTOCMPLT_DFLT, true),
"-l", R_CORE_AUTOCMPLT_FILE, true);
r_core_autocomplete_add (core->autocomplete, "eco", R_CORE_AUTOCMPLT_THME, true);
r_core_autocomplete_add (core->autocomplete, "k", R_CORE_AUTOCMPLT_SDB, true);
/* macros */
r_core_autocomplete_add (core->autocomplete, ".(", R_CORE_AUTOCMPLT_MACR, true);
r_core_autocomplete_add (core->autocomplete, "(-", R_CORE_AUTOCMPLT_MACR, true);
/* just for hints */
int i;
for (i = 0; i < radare_argc && radare_argv[i]; i++) {
if (!r_core_autocomplete_find (core->autocomplete, radare_argv[i], true)) {
r_core_autocomplete_add (core->autocomplete, radare_argv[i], R_CORE_AUTOCMPLT_DFLT, true);
}
}
}
static void __init_autocomplete(RCore* core) {
int i;
core->autocomplete = R_NEW0 (RCoreAutocomplete);
if (core->autocomplete_type == AUTOCOMPLETE_DEFAULT) {
__init_autocomplete_default (core);
} else if (core->autocomplete_type == AUTOCOMPLETE_MS) {
r_core_autocomplete_add (core->autocomplete, "ls", R_CORE_AUTOCMPLT_MS, true);
r_core_autocomplete_add (core->autocomplete, "cd", R_CORE_AUTOCMPLT_MS, true);
r_core_autocomplete_add (core->autocomplete, "cat", R_CORE_AUTOCMPLT_MS, true);
r_core_autocomplete_add (core->autocomplete, "get", R_CORE_AUTOCMPLT_MS, true);
r_core_autocomplete_add (core->autocomplete, "mount", R_CORE_AUTOCMPLT_MS, true);
for (i = 0; i < ms_argc && ms_argv[i]; i++) {
if (!r_core_autocomplete_find (core->autocomplete, ms_argv[i], true)) {
r_core_autocomplete_add (core->autocomplete, ms_argv[i], R_CORE_AUTOCMPLT_MS, true);
}
}
}
}
static const char *colorfor_cb(void *user, ut64 addr, ut8 ch, bool verbose) {
return r_core_anal_optype_colorfor ((RCore *)user, addr, ch, verbose);
}
static char *hasrefs_cb(void *user, ut64 addr, int mode) {
RCore *core = (RCore *)user;
if (mode) {
return r_core_anal_hasrefs ((RCore *)user, addr, mode);
}
core->offset = addr;
char *res = r_core_anal_hasrefs ((RCore *)user, addr, mode);
if (R_STR_ISEMPTY (res)) {
free (res);
addr &= 0xffffffffffffULL;
res = r_core_anal_hasrefs ((RCore *)user, addr, mode);
}
return res;
}
static const char *get_section_name(void *user, ut64 addr) {
return r_core_get_section_name ((RCore *)user, addr);
}
static char *get_comments_cb(void *user, ut64 addr) {
return r_core_anal_get_comments ((RCore *)user, addr);
}
static void cb_event_handler(REvent *ev, int event_type, void *user, void *data) {
RCore *core = (RCore *)ev->user;
if (!core->log_events) {
return;
}
REventMeta *rems = data;
r_strf_buffer (64);
char *pstr;
char *str = r_base64_encode_dyn (rems->string, -1);
switch (event_type) {
case R_EVENT_META_SET:
switch (rems->type) {
case 'C':
pstr = r_str_newf (":add-comment 0x%08"PFMT64x" %s\n", rems->addr, r_str_get (str));
r_core_log_add (ev->user, pstr);
free (pstr);
break;
default:
break;
}
break;
case R_EVENT_META_DEL:
switch (rems->type) {
case 'C':
r_core_log_add (ev->user, r_strf (":del-comment 0x%08"PFMT64x, rems->addr));
break;
default:
r_core_log_add (ev->user, r_strf (":del-comment 0x%08"PFMT64x, rems->addr));
break;
}
break;
case R_EVENT_META_CLEAR:
switch (rems->type) {
case 'C':
r_core_log_add (ev->user, r_strf (":clear-comments 0x%08"PFMT64x, rems->addr));
break;
default:
r_core_log_add (ev->user, r_strf (":clear-comments 0x%08"PFMT64x, rems->addr));
break;
}
break;
default:
// TODO
break;
}
free (str);
}
static RFlagItem *core_flg_class_set(RFlag *f, const char *name, ut64 addr, ut32 size) {
r_flag_space_push (f, R_FLAGS_FS_CLASSES);
RFlagItem *res = r_flag_set (f, name, addr, size);
r_flag_space_pop (f);
return res;
}
static RFlagItem *core_flg_class_get(RFlag *f, const char *name) {
r_flag_space_push (f, R_FLAGS_FS_CLASSES);
RFlagItem *res = r_flag_get (f, name);
r_flag_space_pop (f);
return res;
}
static RFlagItem *core_flg_fcn_set(RFlag *f, const char *name, ut64 addr, ut32 size) {
r_flag_space_push (f, R_FLAGS_FS_FUNCTIONS);
RFlagItem *res = r_flag_set (f, name, addr, size);
r_flag_space_pop (f);
return res;
}
R_API void r_core_autocomplete_reload(RCore *core) {
R_RETURN_IF_FAIL (core);
r_core_autocomplete_free (core->autocomplete);
__init_autocomplete (core);
}
R_API RFlagItem *r_core_flag_get_by_spaces(RFlag *f, ut64 off) {
return r_flag_get_by_spaces (f, off,
R_FLAGS_FS_FUNCTIONS,
R_FLAGS_FS_SIGNS,
R_FLAGS_FS_CLASSES,
R_FLAGS_FS_SYMBOLS,
R_FLAGS_FS_IMPORTS,
R_FLAGS_FS_RELOCS,
R_FLAGS_FS_STRINGS,
R_FLAGS_FS_RESOURCES,
R_FLAGS_FS_SYMBOLS_SECTIONS,
R_FLAGS_FS_SECTIONS,
R_FLAGS_FS_SEGMENTS,
NULL);
}
#if R2__WINDOWS__
// XXX move to rcons?
static int win_eprintf(const char *format, ...) {
va_list ap;
va_start (ap, format);
r_cons_win_vhprintf (STD_ERROR_HANDLE, false, format, ap);
va_end (ap);
return 0;
}
#endif
static void ev_iowrite_cb(REvent *ev, int type, void *user, void *data) {
RCore *core = user;
REventIOWrite *iow = data;
if (r_config_get_i (core->config, "anal.onchange")) {
// works, but loses varnames and such, but at least is not crashing
char *cmd = r_str_newf ("af-0x%08"PFMT64x";af 0x%08"PFMT64x, iow->addr, iow->addr);
r_list_append (core->cmdqueue, cmd);
#if 0
r_anal_update_analysis_range (core->anal, iow->addr, iow->len);
if (core->cons->event_resize && core->cons->event_data) {
// Force a reload of the graph
core->cons->event_resize (core->cons->event_data);
}
#endif
}
}
static RThreadFunctionRet thchan_handler(RThread *th) {
RCore *core = (RCore *)th->user;
r_cons_thready ();
while (r_th_is_running (th) && !th->breaked) {
r_th_sem_wait (core->chan->sem); // busy because stack is empty
if (!r_th_is_running (th) || th->breaked) {
break;
}
RThreadChannelMessage *cm = r_th_channel_read (core->chan);
if (!cm) {
// eprintf ("thchan_handler no message\n");
// r_th_sem_post (cm->sem);
// r_th_channel_write (core->chan, NULL);
// r_th_lock_leave (cm->lock);
continue;
}
char *res = r_core_cmd_str (core, (const char *)cm->msg);
free (cm->msg);
if (res) {
cm->msg = (ut8 *)res;
cm->len = strlen (res) + 1;
} else {
cm->msg = NULL;
cm->len = 0;
}
r_th_channel_post (core->chan, cm);
r_th_sem_post (cm->sem);
}
return 0;
}
static bool cbcore(void *user, int type, const char *origin, const char *msg) {
if (!msg) {
return false;
}
if (!origin) {
origin = "*";
}
RCore *core = (RCore*)user;
char *s = R_STR_ISNOTEMPTY (msg)
? r_str_newf ("%s %s", origin, msg)
: strdup (origin);
r_core_log_add (core, s);
free (s);
return false;
}
#if R2__UNIX__
static R_TH_LOCAL RCore *Gcore = NULL;
static void cmdusr1(int p) {
const char *cmd = r_config_get (Gcore->config, "cmd.usr1");
if (R_STR_ISNOTEMPTY (cmd)) {
r_core_cmd0 (Gcore, cmd);
r_cons_flush ();
}
}
static void cmdusr2(int p) {
const char *cmd = r_config_get (Gcore->config, "cmd.usr2");
if (R_STR_ISNOTEMPTY (cmd)) {
r_core_cmd0 (Gcore, cmd);
r_cons_flush ();
}
}
#endif
static void core_visual_init(RCoreVisual *visual) {
visual->printidx = 0;
visual->textedit_mode = true;
visual->obs = 0;
visual->ime = false;
visual->imes = false;
visual->nib = -1;
visual->blocksize = 0;
visual->autoblocksize = true;
visual->disMode = 0;
visual->hexMode = 0;
visual->printMode = 0;
visual->snowMode = false;
visual->snows = NULL;
visual->color = 1;
visual->zoom = 0;
visual->currentFormat = 0;
visual->current0format = 0;
memset (visual->numbuf, 0, sizeof (visual->numbuf));
visual->numbuf_i = 0;
visual->splitView = false;
visual->splitPtr = UT64_MAX;
visual->current3format = 0;
visual->current4format = 0;
visual->current5format = 0;
visual->hold = NULL;
visual->oldpc = 0;
visual->oseek = UT64_MAX;
memset (visual->debugstr, 0, sizeof (visual->debugstr));
visual->firstRun = true;
visual->fromVisual = false;
memset (visual->menus_Colors, 0, sizeof (visual->menus_Colors));
}
R_API bool r_core_init(RCore *core) {
#if R2__UNIX__
Gcore = core;
r_sys_signal (SIGUSR1, cmdusr1);
r_sys_signal (SIGUSR2, cmdusr2);
#endif
r_w32_init ();
core->log = r_core_log_new ();
core->blocksize = R_CORE_BLOCKSIZE;
core->block = (ut8 *)calloc (R_CORE_BLOCKSIZE + 1, 1);
if (!core->block) {
R_LOG_ERROR ("Cannot allocate %d byte(s)", R_CORE_BLOCKSIZE);
return false;
}
r_core_vmark_reset (core);
core->chan = NULL;
r_core_setenv (core);
core->lock = r_th_lock_new (true);
core->in_log_process = false;
core->rfs = r_fs_shell_new ();
core->ev = r_event_new (core);
r_event_hook (core->ev, R_EVENT_ALL, cb_event_handler, NULL);
core->max_cmd_depth = R_CONS_CMD_DEPTH + 1;
core->sdb = sdb_new (NULL, "r2kv.sdb", 0); // XXX: path must be in home?
core->lastsearch = NULL;
core->cmdfilter = NULL;
core->switch_file_view = 0;
core->cmdremote = 0;
core->incomment = false;
core->config = NULL;
core->prj = r_project_new ();
core->http_up = false;
ZERO_FILL (core->root_cmd_descriptor);
core->print = r_print_new ();
core->ropchain = r_list_newf ((RListFree)free);
r_core_bind (core, &(core->print->coreb));
core->print->user = core;
core->num = r_num_new (&num_callback, &str_callback, core);
core->print->num = core->num;
core->print->offname = r_core_print_offname;
core->print->offsize = r_core_print_offsize;
core->print->cb_printf = r_cons_printf;
#if R2__WINDOWS__
// XXX R2_590 deprecate this callback? we have the rlog apis
core->print->cb_eprintf = win_eprintf;
#endif
core->print->cb_color = r_cons_rainbow_get;
core->print->write = mywrite;
core->print->exists_var = exists_var;
core->print->disasm = __disasm;
core->print->colorfor = colorfor_cb;
core->print->hasrefs = hasrefs_cb;
core->print->get_comments = get_comments_cb;
core->print->get_section_name = get_section_name;
core->print->use_comments = false;
core->rtr_n = 0;
core->blocksize_max = R_CORE_BLOCKSIZE_MAX;
r_core_task_scheduler_init (&core->tasks, core);
core->watchers = r_list_new ();
core->watchers->free = (RListFree)r_core_cmpwatch_free;
core->scriptstack = r_list_new ();
core->scriptstack->free = (RListFree)free;
core->times = R_NEW0 (RCoreTimes);
core->vmode = false;
core_visual_init (&core->visual);
core->lastcmd = NULL;
if (core->print->charset) {
sdb_free (core->print->charset->db);
core->print->charset->db = sdb_ns (core->sdb, "charset", 1);
core->print->charset->db->refs++; // increase reference counter to avoid double-free
}
// ideally sdb_ns_set should be used here, but it doesnt seems to work well. must fix
// sdb_ns_set (DB, "charset", core->print->charset->db);
core->stkcmd = NULL;
core->cmdqueue = r_list_newf (free);
core->cmdrepeat = true;
core->yank_buf = r_buf_new ();
core->crypto = r_crypto_new ();
core->egg = r_egg_new ();
// core->egg->rasm = core->rasm;
// r_anal_bind (core->anal, &(core->egg->rasm->analb));
core->undos = r_list_newf ((RListFree)r_core_undo_free);
core->theme = strdup ("default");
/* initialize libraries */
core->cons = r_cons_new ();
if (core->cons->refcnt == 1) {
core->cons = r_cons_singleton ();
if (core->cons->line) {
core->cons->line->user = core;
core->cons->line->cb_editor = \
(RLineEditorCb)&r_core_editor;
core->cons->line->cb_fkey = core->cons->cb_fkey;
}
#if __EMSCRIPTEN__
core->cons->user_fgets = NULL;
#else
core->cons->user_fgets = (void *)r_core_fgets;
#endif
//r_line_singleton ()->user = (void *)core;
}
core->print->cons = core->cons;
r_cons_bind (&core->print->consbind);
core->cmdlog = NULL;
// XXX causes uaf
r_log_add_callback (cbcore, core);
// We save the old num ad user, in order to restore it after free
core->lang = r_lang_new ();
core->lang->cmd_str = (char *(*)(void *, const char *))r_core_cmd_str;
core->lang->cmdf = (RCoreCmdF)r_core_cmdf;
core->lang->call_at = (RCoreCallAtCallback) r_core_cmd_call_str_at;
r_core_bind_cons (core);
core->table = NULL;
core->lang->cb_printf = r_cons_printf;
r_lang_define (core->lang, "RCore", "core", core);
r_lang_set_user_ptr (core->lang, core);
core->rasm = core->egg->rasm;
core->rasm->num = core->num;
core->anal = r_anal_new ();
r_anal_bind (core->anal, &core->egg->rasm->analb);
r_asm_set_user_ptr (core->rasm, core);
// XXX this should be tied to RArchConfig
r_egg_setup (core->egg, R_SYS_ARCH, R_SYS_BITS, 0, R_SYS_OS);
#if 1
// TODO: use r_ref_set
r_ref (core->rasm->config);
r_unref (core->print->config);
core->print->config = core->rasm->config;
r_ref (core->rasm->config);
r_unref (core->anal->config);
core->anal->config = core->rasm->config;
r_ref (core->rasm->config);
r_unref (core->anal->reg->config);
core->anal->reg->config = core->rasm->config;
#else
r_ref_set (core->print->config, core->rasm->config);
r_ref_set (core->anal->config, core->rasm->config);
r_ref_set (core->anal->reg->config, core->rasm->config);
#endif
// RAnal.new() doesnt initializes this field. but it should be refcounted
core->anal->print = core->print;
r_anal_set_bits (core->anal, 32); // core->rasm->config->bits);
core->gadgets = r_list_newf ((RListFree)r_core_gadget_free);
core->anal->ev = core->ev;
core->anal->log = r_core_anal_log;
core->anal->read_at = r_core_anal_read_at;
core->anal->flag_get = r_core_flag_get_by_spaces;
core->anal->cb.on_fcn_new = on_fcn_new;
core->anal->cb.on_fcn_delete = on_fcn_delete;
core->anal->cb.on_fcn_rename = on_fcn_rename;
r_anal_bind (core->anal, &core->rasm->analb);
core->print->sdb_types = core->anal->sdb_types;
core->rasm->syscall = r_syscall_ref (core->anal->syscall); // BIND syscall anal/asm
r_anal_set_user_ptr (core->anal, core);
core->anal->cb_printf = (void *) r_cons_printf;
core->parser = r_parse_new ();
r_anal_bind (core->anal, &(core->parser->analb));
core->parser->varlist = r_anal_function_get_var_fields;
/// XXX shouhld be using coreb
r_parse_set_user_ptr (core->parser, core);
core->bin = r_bin_new ();
r_cons_bind (&core->bin->consb);
// XXX we should use RConsBind instead of this hardcoded pointer
core->bin->cb_printf = (PrintfCallback) r_cons_printf;
r_bin_set_user_ptr (core->bin, core);
core->io = r_io_new ();
r_event_hook (core->io->event, R_EVENT_IO_WRITE, ev_iowrite_cb, core);
core->io->ff = 1;
core->search = r_search_new (R_SEARCH_KEYWORD);
r_io_undo_enable (core->io, 1, 0); // TODO: configurable via eval
core->fs = r_fs_new ();
core->flags = r_flag_new ();
core->flags->cb_printf = r_cons_printf;
core->graph = r_agraph_new (r_cons_canvas_new (1, 1));
core->graph->need_reload_nodes = false;
core->asmqjmps_size = R_CORE_ASMQJMPS_NUM;
if (sizeof (ut64) * core->asmqjmps_size < core->asmqjmps_size) {
core->asmqjmps_size = 0;
core->asmqjmps = NULL;
} else {
core->asmqjmps = R_NEWS (ut64, core->asmqjmps_size);
}
r_bin_bind (core->bin, &(core->anal->binb));
r_bin_bind (core->bin, &(core->anal->arch->binb));
r_num_free (core->anal->arch->num);
core->anal->arch->num = core->num;
r_io_bind (core->io, &(core->search->iob));
r_io_bind (core->io, &(core->print->iob));
r_io_bind (core->io, &(core->anal->iob));
r_io_bind (core->io, &(core->fs->iob));
r_cons_bind (&(core->fs->csb));
r_cons_bind (&(core->search->consb));
r_core_bind (core, &(core->fs->cob));
r_io_bind (core->io, &(core->bin->iob));
r_flag_bind (core->flags, &(core->anal->flb));
core->anal->flg_class_set = core_flg_class_set;
core->anal->flg_class_get = core_flg_class_get;
core->anal->flg_fcn_set = core_flg_fcn_set;
r_anal_bind (core->anal, &(core->parser->analb));
core->parser->flag_get = r_core_flag_get_by_spaces;
core->parser->label_get = r_anal_function_get_label_at;
r_core_bind (core, &(core->anal->coreb));
core->offset = 0LL;
core->prompt_offset = 0LL;
r_core_cmd_init (core);
core->dbg = r_debug_new (true);
r_io_bind (core->io, &(core->dbg->iob));
r_io_bind (core->io, &(core->dbg->bp->iob));
r_core_bind (core, &core->dbg->coreb);
r_core_bind (core, &core->dbg->bp->coreb);
r_core_bind (core, &core->io->coreb);
core->dbg->egg = core->egg;
core->dbg->anal = core->anal; // XXX: dupped instance.. can cause lost pointerz
// r_debug_use (core->dbg, "native");
// XXX pushing uninitialized regstate results in trashed reg values
// r_reg_arena_push (core->dbg->reg); // create a 2 level register state stack
// core->dbg->anal->reg = core->anal->reg; // XXX: dupped instance.. can cause lost pointerz
core->io->cb_printf = r_cons_printf;
core->dbg->cb_printf = r_cons_printf;
core->dbg->bp->cb_printf = r_cons_printf;
core->dbg->ev = core->ev;
r_core_config_init (core);
r_core_loadlibs_init (core);
//r_core_loadlibs (core);
// TODO: get arch from r_bin or from native arch
#if 0
// Seems unnecessary
r_asm_use (core->rasm, R_SYS_ARCH);
r_anal_use (core->anal, R_SYS_ARCH);
#endif
if (R_SYS_BITS & R_SYS_BITS_64) {
r_config_set_i (core->config, "asm.bits", 64);
} else {
if (R_SYS_BITS & R_SYS_BITS_32) {
r_config_set_i (core->config, "asm.bits", 32);
}
}
r_config_set (core->config, "asm.arch", R_SYS_ARCH);
r_bp_use (core->dbg->bp, R_SYS_ARCH, core->anal->config->bits);
update_sdb (core);
{
char *a = r_str_r2_prefix (R2_FLAGS);
if (a) {
char *file = r_str_newf ("%s/tags.r2", a);
bool p = core->print->enable_progressbar;
core->print->enable_progressbar = false;
(void)r_core_run_script (core, file);
core->print->enable_progressbar = p;
free (file);
free (a);
}
}
r_core_anal_type_init (core);
__init_autocomplete (core);
r_anal_bind (core->anal, &(core->rasm->analb));
return 0;
}
R_API void __cons_cb_fkey(RCore *core, int fkey) {
char buf[32];
snprintf (buf, sizeof (buf), "key.f%d", fkey);
const char *v = r_config_get (core->config, buf);
if (v && *v) {
r_cons_printf ("%s\n", v);
r_core_cmd0 (core, v);
r_cons_flush ();
}
}
R_API void r_core_bind_cons(RCore *core) {
core->cons->num = core->num;
core->cons->cb_fkey = (RConsFunctionKey)__cons_cb_fkey;
core->cons->cb_editor = (RConsEditorCallback)r_core_editor;
core->cons->cb_break = NULL; // (RConsBreakCallback)r_core_break;
core->cons->cb_sleep_begin = (RConsSleepBeginCallback)r_core_sleep_begin;
core->cons->cb_sleep_end = (RConsSleepEndCallback)r_core_sleep_end;
core->cons->cb_task_oneshot = (RConsQueueTaskOneshot) r_core_task_enqueue_oneshot;
core->cons->user = (void*)core;
}
R_API void r_core_fini(RCore *c) {
if (!c) {
return;
}
if (c->chan) {
r_th_channel_free (c->chan);
}
#if R2__UNIX__
Gcore = NULL;
#endif
r_log_add_callback (cbcore, NULL);
r_crypto_free (c->crypto);
r_th_lock_free (c->lock);
r_core_task_break_all (&c->tasks);
r_core_task_join (&c->tasks, NULL, -1);
r_core_wait (c);
/* TODO: it leaks as shit */
//update_sdb (c);
// avoid double free
r_list_free (c->ropchain);
r_table_free (c->table);
r_event_free (c->ev);
R_FREE (c->cmdlog);
free (c->lastsearch);
r_list_free (c->cmdqueue);
free (c->lastcmd);
free (c->stkcmd);
r_project_free (c->prj);
r_list_free (c->visual.tabs);
free (c->block);
r_core_autocomplete_free (c->autocomplete);
r_list_free (c->gadgets);
r_list_free (c->undos);
r_num_free (c->num);
// TODO: sync or not? sdb_sync (c->sdb);
// TODO: sync all dbs?
//c->file = NULL;
free (c->table_query);
r_list_free (c->watchers);
r_list_free (c->scriptstack);
r_core_task_scheduler_fini (&c->tasks);
c->rcmd = r_cmd_free (c->rcmd);
r_list_free (c->cmd_descriptors);
/*
r_unref (c->anal->reg->config);
r_unref (c->anal->config);
*/
if (c->anal->esil) {
c->anal->esil->anal = NULL;
}
r_lib_free (c->lib);
r_anal_free (c->anal);
r_asm_free (c->rasm);
c->rasm = NULL;
r_print_free (c->print);
c->print = NULL;
c->bin = (r_bin_free (c->bin), NULL);
c->dbg = (r_debug_free (c->dbg), NULL);
c->io = (r_io_free (c->io), NULL);
c->lang = (r_lang_free (c->lang), NULL);
r_config_free (c->config);
c->config = NULL;
/* after r_config_free, the value of I.teefile is trashed */
/* rconfig doesnt knows how to deinitialize vars, so we
should probably need to add a r_config_free_payload callback */
r_cons_free ();
r_cons_singleton ()->teefile = NULL; // HACK
free (c->theme);
free (c->themepath);
r_search_free (c->search);
r_flag_free (c->flags);
r_fs_free (c->fs);
c->egg->rasm = NULL;
r_egg_free (c->egg);
r_buf_free (c->yank_buf);
r_agraph_free (c->graph);
free (c->asmqjmps);
sdb_free (c->sdb);
r_core_log_free (c->log);
r_parse_free (c->parser);
r_fs_shell_free (c->rfs);
free (c->times);
}
R_API void r_core_free(RCore *c) {
if (c) {
r_core_fini (c);
free (c);
}
}
#if !R2_USE_NEW_ABI
R_IPI int Gload_index = 0;
#endif
R_API bool r_core_prompt_loop(RCore *r) {
#if !R2_USE_NEW_ABI
Gload_index = r_cons_singleton()->line->history.index;
#endif
int ret = 0;
do {
int err = r_core_prompt (r, false);
if (err < 1) {
// handle ^D
r->num->value = 0; // r.num->value will be read by r_main_radare2() after calling this fcn
return false;
}
/* -1 means invalid command, -2 means quit prompt loop */
ret = r_core_prompt_exec (r);
if (ret == R_CMD_RC_QUIT) {
break;
}
} while (ret != R_CORE_CMD_EXIT);
return true;
}
static int prompt_flag(RCore *r, char *s, size_t maxlen) {
const char DOTS[] = "...";
const RFlagItem *f = r_flag_get_at (r->flags, r->offset, true);
if (!f) {
return false;
}
if (f->offset < r->offset) {
snprintf (s, maxlen, "0x%08" PFMT64x " | %s+0x%" PFMT64x,
r->offset, f->name, r->offset - f->offset);
} else {
snprintf (s, maxlen, "0x%08" PFMT64x " | %s",
r->offset, f->name);
}
if (strlen (s) > maxlen - sizeof (DOTS)) {
s[maxlen - sizeof (DOTS) - 1] = '\0';
strcat (s, DOTS);
}
return true;
}
static void prompt_sec(RCore *r, char *s, size_t maxlen) {
const RBinSection *sec = r_bin_get_section_at (r_bin_cur_object (r->bin), r->offset, true);
if (!sec) {
return;
}
r_str_ncpy (s, sec->name, maxlen - 2);
strcat (s, ":");
}
static void chop_prompt(const char *filename, char *tmp, size_t max_tmp_size) {
unsigned int OTHRSCH = 3;
const char DOTS[] = "...";
int w = r_cons_get_size (NULL);
size_t file_len = strlen (filename);
size_t tmp_len = strlen (tmp);
int p_len = R_MAX (0, w - 6);
if (file_len + tmp_len + OTHRSCH >= p_len) {
size_t dots_size = sizeof (DOTS);
size_t chop_point = (size_t)(p_len - OTHRSCH - file_len - dots_size);
if (chop_point < max_tmp_size - dots_size) {
snprintf (tmp + chop_point, dots_size, "%s", DOTS);
}
}
}
static void set_prompt(RCore *r) {
if (r->incomment) {
r_line_set_prompt (" * ");
return;
}
char tmp[128];
char *filename = strdup ("");
const char *cmdprompt = r_config_get (r->config, "cmd.prompt");
const char *BEGIN = "";
const char *END = "";
const char *remote = "";
if (R_STR_ISNOTEMPTY (cmdprompt)) {
r_core_cmd (r, cmdprompt, 0);
}
if (r_config_get_b (r->config, "scr.prompt.prj")) {
free (filename);
const char *pn = r_config_get (r->config, "prj.name");
filename = r_str_newf ("<%s>", pn);
} else if (r_config_get_b (r->config, "scr.prompt.file")) {
free (filename);
const char *fn = r->io->desc ? r_file_basename (r->io->desc->name) : "";
filename = r_str_newf ("<%s>", fn);
}
if (r->cmdremote) {
char *s = r_core_cmd_str (r, "s");
r->offset = r_num_math (NULL, s);
free (s);
remote = "=!";
}
if (r_config_get_i (r->config, "scr.color") > 0) {
BEGIN = r->cons->context->pal.prompt;
END = r->cons->context->pal.reset;
}
// TODO: also in visual prompt and disasm/hexdump ?
if (r_config_get_b (r->config, "asm.offset.segment")) {
ut32 sb = r_config_get_i (r->config, "anal.cs"); // segment base value
ut32 sg = r_config_get_i (r->config, "asm.offset.segment.bits"); // segment granurality
ut32 a, b;
r_num_segaddr (r->offset, sb, sg, &a, &b);
snprintf (tmp, sizeof (tmp), "%04x:%04x", a, b);
} else {
char p[64], sec[32];
int promptset = false;
sec[0] = '\0';
if (r_config_get_b (r->config, "scr.prompt.flag")) {
promptset = prompt_flag (r, p, sizeof (p));
}
if (r_config_get_b (r->config, "scr.prompt.sect")) {
prompt_sec (r, sec, sizeof (sec));
}
if (!promptset) {
if (r->print->wide_offsets && r->dbg->bits & R_SYS_BITS_64) {
snprintf (p, sizeof (p), "0x%016" PFMT64x, r->offset);
} else {
snprintf (p, sizeof (p), "0x%08" PFMT64x, r->offset);
}
}
snprintf (tmp, sizeof (tmp), "%s%s", sec, p);
}
chop_prompt (filename, tmp, 128);
char *prompt = NULL;
if (r_config_get_b (r->config, "scr.prompt.code")) {
st64 code = r->num->value;
prompt = r_str_newf ("%s%s[%"PFMT64d":%s%s]> %s", filename, BEGIN, code, remote, tmp, END);
} else {
prompt = r_str_newf ("%s%s[%s%s]> %s", filename, BEGIN, remote, tmp, END);
}
r_line_set_prompt (r_str_get (prompt));
R_FREE (filename);
R_FREE (prompt);
}
R_API void r_core_cmd_queue_wait(RCore *core) {
const bool interactive = r_config_get_b (core->config, "scr.interactive");
if (!interactive) {
return;
}
r_cons_push ();
r_cons_break_push (NULL, NULL);
while (!r_cons_is_breaked ()) {
char *cmd = r_list_pop (core->cmdqueue);
if (cmd) {
r_core_cmd0 (core, cmd);
r_cons_flush ();
free (cmd);
}
r_sys_usleep (100);
}
r_cons_break_pop ();
r_cons_pop ();
}
R_API void r_core_cmd_queue(RCore *core, const char *line) {
if (line) {
r_list_append (core->cmdqueue, strdup (line));
} else {
r_list_free (core->cmdqueue);
core->cmdqueue = r_list_newf (free);
}
}
R_API int r_core_prompt(RCore *r, int sync) {
char line[4096];
int rnv = r->num->value;
set_prompt (r);
int ret = r_cons_fgets (line, sizeof (line), 0, NULL);
if (ret == -2) {
return R_CORE_CMD_EXIT; // ^D
}
if (ret == -1) {
if (r->incomment) {
r->incomment = false;
return 1;
}
return false; // FD READ ERROR
}
r->num->value = rnv;
if (sync) {
return r_core_prompt_exec (r);
}
r_core_cmd_queue (r, line);
if (r->scr_gadgets && *line && *line != 'q') {
r_core_cmd0 (r, "pg");
}
// r->num->value = r->rc;
return true;
}
R_API int r_core_prompt_exec(RCore *r) {
int ret = -1;
while (!r_list_empty (r->cmdqueue)) {
char *cmd = r_list_pop (r->cmdqueue);
if (!cmd) {
break;
}
ret = r_core_cmd (r, cmd, true); // initial free
free (cmd);
if (ret < 0) {
if (r->cons && r->cons->line && r->cons->line->zerosep) {
r_cons_zero ();
}
r_core_cmd_queue (r, NULL);
break;
}
if (r->cons && r->cons->context->use_tts) {
const char *buf = r_cons_get_buffer ();
if (R_STR_ISNOTEMPTY (buf)) {
r_sys_tts (buf, true);
}
r->cons->context->use_tts = false;
}
r_cons_echo (NULL);
r_cons_flush (); // double free
if (r->cons && r->cons->line && r->cons->line->zerosep) {
r_cons_zero ();
}
}
return ret;
}
R_API int r_core_seek_size(RCore *core, ut64 addr, int bsize) {
ut8 *bump;
int ret = false;
if (bsize < 0) {
return false;
}
if (bsize == core->blocksize) {
return true;
}
if (r_sandbox_enable (0)) {
// TODO : restrict to filesize?
if (bsize > 1024 * 32) {
R_LOG_ERROR ("Sandbox mode restricts blocksize bigger than 32k");
return false;
}
}
if (bsize > core->blocksize_max) {
R_LOG_ERROR ("Block size %d is too big", bsize);
return false;
}
R_CRITICAL_ENTER (core);
core->offset = addr;
if (bsize < 1) {
bsize = 1;
} else if (core->blocksize_max && bsize>core->blocksize_max) {
R_LOG_ERROR ("bsize is bigger than `bm`. dimmed to 0x%x > 0x%x",
bsize, core->blocksize_max);
bsize = core->blocksize_max;
}
bump = realloc (core->block, bsize + 1);
if (!bump) {
R_LOG_ERROR ("Oops. cannot allocate that much (%u)", bsize);
ret = false;
} else {
ret = true;
core->block = bump;
core->blocksize = bsize;
memset (core->block, 0xff, core->blocksize);
r_core_block_read (core);
}
R_CRITICAL_LEAVE (core);
return ret;
}
R_API int r_core_block_size(RCore *core, int bsize) {
return r_core_seek_size (core, core->offset, bsize);
}
R_API int r_core_seek_align(RCore *core, ut64 align, int times) {
int inc = (times >= 0)? 1: -1;
ut64 seek = core->offset;
if (!align) {
return false;
}
int diff = core->offset % align;
if (!times) {
diff = -diff;
} else if (diff) {
if (inc > 0) {
diff += align-diff;
} else {
diff = -diff;
}
if (times) {
times -= inc;
}
}
while ((times*inc) > 0) {
times -= inc;
diff += (align * inc);
}
if (diff < 0 && -diff > seek) {
seek = diff = 0;
}
return r_core_seek (core, seek + diff, true);
}
R_API char *r_core_op_str(RCore *core, ut64 addr) {
RAnalOp op;
r_anal_op_init (&op);
r_asm_set_pc (core->rasm, addr);
ut8 buf[64];
// TODO: use archinfo to avoid readingn 64bytes always
r_io_read_at (core->io, addr, buf, sizeof (buf));
int ret = r_asm_disassemble (core->rasm, &op, buf, sizeof (buf));
char *str = (ret > 0)? strdup (op.mnemonic): NULL;
r_anal_op_fini (&op);
return str;
}
R_API RAnalOp *r_core_op_anal(RCore *core, ut64 addr, RAnalOpMask mask) {
ut8 buf[64];
RAnalOp *op = R_NEW (RAnalOp);
if (op) {
r_io_read_at (core->io, addr, buf, sizeof (buf));
r_anal_op (core->anal, op, addr, buf, sizeof (buf), mask);
}
return op;
}
static void rap_break(void *u) {
RIORap *rior = (RIORap*) u;
if (u) {
r_socket_close (rior->fd);
rior->fd = NULL;
}
}
// TODO: PLEASE move into core/io/rap? */
// TODO: use static buffer instead of mallocs all the time. it's network!
R_API bool r_core_serve(RCore *core, RIODesc *file) {
// TODO: use r_socket_rap_server API instead of duplicating the logic
ut8 cmd, flg, *ptr = NULL, buf[1024];
int i, pipefd = -1;
ut64 x;
RIORap *rior = (RIORap *)file->data;
if (!rior || !rior->fd) {
R_LOG_ERROR ("rap: cannot listen");
return false;
}
RSocket *fd = rior->fd;
const char *arg = r_config_get (core->config, "rap.loop");
R_LOG_INFO ("RAP Server started (rap.loop=%s)", arg);
r_cons_break_push (rap_break, rior);
reaccept:
while (!r_cons_is_breaked ()) {
RSocket *c = r_socket_accept (fd);
if (!c) {
break;
}
if (r_cons_is_breaked ()) {
goto out_of_function;
}
if (!c) {
R_LOG_ERROR ("rap: cannot accept");
r_socket_free (c);
goto out_of_function;
}
R_LOG_INFO ("rap: client connected");
for (;!r_cons_is_breaked ();) {
if (!r_socket_read_block (c, &cmd, 1)) {
R_LOG_INFO ("rap: connection closed");
if (r_config_get_i (core->config, "rap.loop")) {
R_LOG_INFO ("rap: waiting for new connection");
r_socket_free (c);
goto reaccept;
}
goto out_of_function;
}
switch (cmd) {
case RAP_PACKET_OPEN:
r_socket_read_block (c, &flg, 1); // flags
R_LOG_DEBUG ("open (%d)", cmd);
r_socket_read_block (c, &cmd, 1); // len
pipefd = -1;
if (UT8_ADD_OVFCHK (cmd, 1)) {
goto out_of_function;
}
ptr = malloc ((size_t)cmd + 1);
if (!ptr) {
R_LOG_ERROR ("Cannot malloc in rmt-open len = %d", cmd);
} else {
ut64 baddr = r_config_get_i (core->config, "bin.laddr");
r_socket_read_block (c, ptr, cmd);
ptr[cmd] = 0;
ut32 perm = R_PERM_R;
if (flg & R_PERM_W) {
perm |= R_PERM_W;
}
if (r_core_file_open (core, (const char *)ptr, perm, 0)) {
int fd = r_io_fd_get_current (core->io);
r_core_bin_load (core, NULL, baddr);
r_io_map_add (core->io, fd, perm, 0, 0, r_io_fd_size (core->io, fd));
if (core->io->desc) {
pipefd = fd;
} else {
pipefd = -1;
}
R_LOG_INFO ("(flags: %d) len: %d filename: '%s'", flg, cmd, ptr);
} else {
pipefd = -1;
R_LOG_ERROR ("Cannot open file (%s)", ptr);
r_socket_close (c);
if (r_config_get_i (core->config, "rap.loop")) {
R_LOG_INFO ("rap: waiting for new connection");
r_socket_free (c);
goto reaccept;
}
goto out_of_function; //XXX: Close connection and goto accept
}
}
buf[0] = RAP_PACKET_OPEN | RAP_PACKET_REPLY;
r_write_be32 (buf + 1, pipefd);
r_socket_write (c, buf, 5);
r_socket_flush (c);
R_FREE (ptr);
break;
case RAP_PACKET_READ:
r_socket_read_block (c, (ut8*)&buf, 4);
i = r_read_be32 (buf);
ptr = (ut8 *)malloc (i + core->blocksize + 5);
if (ptr) {
r_core_block_read (core);
ptr[0] = RAP_PACKET_READ | RAP_PACKET_REPLY;
if (i > RAP_PACKET_MAX) {
i = RAP_PACKET_MAX;
}
if (i > core->blocksize) {
r_core_block_size (core, i);
}
if (i + 128 < core->blocksize) {
r_core_block_size (core, i);
}
r_write_be32 (ptr + 1, i);
memcpy (ptr + 5, core->block, i); //core->blocksize);
r_socket_write (c, ptr, i + 5);
r_socket_flush (c);
R_FREE (ptr);
} else {
R_LOG_ERROR ("Cannot read %d byte(s)", i);
r_socket_free (c);
// TODO: reply error here
goto out_of_function;
}
break;
case RAP_PACKET_CMD:
{
char *cmd = NULL, *cmd_output = NULL;
char bufr[8], *bufw = NULL;
ut32 cmd_len = 0;
int i;
/* read */
r_socket_read_block (c, (ut8*)&bufr, 4);
i = r_read_be32 (bufr);
if (i > 0 && i < RAP_PACKET_MAX) {
if ((cmd = malloc (i + 1))) {
r_socket_read_block (c, (ut8*)cmd, i);
cmd[i] = '\0';
bool scr_interactive = r_config_get_b (core->config, "scr.interactive");
r_config_set_b (core->config, "scr.interactive", false);
cmd_output = r_core_cmd_str (core, cmd);
r_config_set_b (core->config, "scr.interactive", scr_interactive);
free (cmd);
} else {
R_LOG_ERROR ("rap: cannot malloc");
}
} else {
R_LOG_INFO ("rap: invalid length '%d'", i);
}
/* write */
if (cmd_output) {
cmd_len = strlen (cmd_output) + 1;
} else {
cmd_output = strdup ("");
cmd_len = 0;
}
#if DEMO_SERVER_SENDS_CMD_TO_CLIENT
static R_TH_LOCAL bool once = true;
/* TODO: server can reply a command request to the client only here */
if (once) {
const char *cmd = "pd 4";
int cmd_len = strlen (cmd) + 1;
ut8 *b = malloc (cmd_len + 5);
b[0] = RAP_PACKET_CMD;
r_write_be32 (b + 1, cmd_len);
strcpy ((char *)b+ 5, cmd);
r_socket_write (c, b, 5 + cmd_len);
r_socket_flush (c);
/* read response */
r_socket_read_block (c, b, 5);
if (b[0] == (RAP_PACKET_CMD | RAP_PACKET_REPLY)) {
ut32 n = r_read_be32 (b + 1);
R_LOG_DEBUG ("REPLY %d", n);
if (n > 0) {
ut8 *res = calloc (1, n);
r_socket_read_block (c, res, n);
R_LOG_DEBUG ("RESPONSE(%s)", (const char *)res);
free (res);
}
}
r_socket_flush (c);
free (b);
once = false;
}
#endif
bufw = malloc (cmd_len + 5);
bufw[0] = (ut8) (RAP_PACKET_CMD | RAP_PACKET_REPLY);
r_write_be32 (bufw + 1, cmd_len);
memcpy (bufw + 5, cmd_output, cmd_len);
r_socket_write (c, bufw, cmd_len+5);
r_socket_flush (c);
free (bufw);
free (cmd_output);
break;
}
case RAP_PACKET_WRITE:
r_socket_read_block (c, buf, 4);
x = r_read_at_be32 (buf, 0);
ptr = malloc (x);
r_socket_read_block (c, ptr, x);
int ret = r_core_write_at (core, core->offset, ptr, x);
buf[0] = RAP_PACKET_WRITE | RAP_PACKET_REPLY;
r_write_be32 (buf + 1, ret);
r_socket_write (c, buf, 5);
r_socket_flush (c);
R_FREE (ptr);
break;
case RAP_PACKET_SEEK:
r_socket_read_block (c, buf, 9);
x = r_read_at_be64 (buf, 1);
if (buf[0] == 2) {
if (core->io->desc) {
x = r_io_fd_size (core->io, core->io->desc->fd);
} else {
x = 0;
}
} else {
if (buf[0] == 0) {
r_core_seek (core, x, true); //buf[0]);
}
x = core->offset;
}
buf[0] = RAP_PACKET_SEEK | RAP_PACKET_REPLY;
r_write_be64 (buf + 1, x);
r_socket_write (c, buf, 9);
r_socket_flush (c);
break;
case RAP_PACKET_CLOSE:
// XXX : proper shutdown
r_socket_read_block (c, buf, 4);
i = r_read_be32 (buf);
{
//FIXME: Use r_socket_close
int ret = close (i);
r_write_be32 (buf + 1, ret);
buf[0] = RAP_PACKET_CLOSE | RAP_PACKET_REPLY;
r_socket_write (c, buf, 5);
r_socket_flush (c);
}
break;
default:
if (cmd == 'G') {
// silly http emulation over rap://
char line[256] = {0};
r_socket_read_block (c, (ut8*)line, sizeof (line));
if (!r_str_ncpy (line, "ET /cmd/", 8)) {
char *cmd = line + 8;
char *http = strstr (cmd, "HTTP");
if (http) {
*http = 0;
http--;
if (*http == ' ') {
*http = 0;
}
}
r_str_uri_decode (cmd);
char *res = r_core_cmd_str (core, cmd);
if (res) {
r_socket_printf (c, "HTTP/1.0 %d %s\r\n%s"
"Connection: close\r\nContent-Length: %d\r\n\r\n",
200, "OK", "", -1); // strlen (res));
r_socket_write (c, res, strlen (res));
free (res);
}
r_socket_flush (c);
r_socket_close (c);
}
} else {
R_LOG_ERROR ("[rap] unknown command 0x%02x", cmd);
r_socket_close (c);
R_FREE (ptr);
}
if (r_config_get_i (core->config, "rap.loop")) {
R_LOG_INFO ("rap: waiting for new connection");
r_socket_free (c);
goto reaccept;
}
goto out_of_function;
}
}
R_LOG_INFO ("client: disconnected");
r_socket_free (c);
}
out_of_function:
r_cons_break_pop ();
return false;
}
#if 0
R_API int r_core_search_cb(RCore *core, ut64 from, ut64 to, RCoreSearchCallback cb) {
int ret, len = core->blocksize;
ut8 *buf = malloc (len);
if (!buf) {
R_LOG_ERROR ("Cannot allocate blocksize");
return false;
}
while (from < to) {
ut64 delta = to-from;
if (delta < len) {
len = (int)delta;
}
if (!r_io_read_at (core->io, from, buf, len)) {
R_LOG_ERROR ("RCoreSearchCb: Cannot read at 0x%"PFMT64x, from);
break;
}
for (ret = 0; ret < len;) {
int done = cb (core, from, buf+ret, len-ret);
if (done < 1) { /* interrupted */
free (buf);
return false;
}
ret += done;
}
from += len;
}
free (buf);
return true;
}
#endif
R_API char *r_core_editor(const RCore *core, const char *file, const char *str) {
const bool interactive = r_cons_is_interactive ();
const char *editor = r_config_get (core->config, "cfg.editor");
char *name = NULL, *ret = NULL;
int fd;
if (!interactive) {
return NULL;
}
bool readonly = false;
bool tempfile = false;
if (file && *file != '*') {
name = strdup (file);
fd = r_sandbox_open (file, O_RDWR, 0644);
if (fd == -1) {
fd = r_sandbox_open (file, O_RDWR | O_CREAT, 0644);
if (fd == -1) {
fd = r_sandbox_open (file, O_RDONLY, 0644);
readonly = true;
}
}
} else {
tempfile = true;
fd = r_file_mkstemp (file, &name);
}
if (fd == -1) {
free (name);
return NULL;
}
if (readonly) {
R_LOG_INFO ("Opening in read-only");
} else {
if (str) {
const size_t str_len = strlen (str);
if (write (fd, str, str_len) != str_len) {
close (fd);
free (name);
return NULL;
}
}
}
close (fd);
if (name && (R_STR_ISEMPTY (editor) || !strcmp (editor, "-"))) {
RCons *cons = r_cons_singleton ();
void *tmp = cons->cb_editor;
cons->cb_editor = NULL;
r_cons_editor (name, NULL);
cons->cb_editor = tmp;
} else {
if (editor && name) {
char *escaped_name = r_str_escape_sh (name);
r_sys_cmdf ("%s \"%s\"", editor, escaped_name);
free (escaped_name);
}
}
size_t len = 0;
ret = name? r_file_slurp (name, &len): 0;
if (ret) {
if (len && ret[len - 1] == '\n') {
ret[len - 1] = 0; // chop
}
if (tempfile) {
r_file_rm (name);
}
}
free (name);
return ret;
}
/* weak getters */
R_API RCons *r_core_get_cons(RCore *core) {
return core->cons;
}
R_API RConfig *r_core_get_config(RCore *core) {
return core->config;
}
R_API RBin *r_core_get_bin(RCore *core) {
return core->bin;
}
R_API RBuffer *r_core_syscallf(RCore *core, const char *name, const char *fmt, ...) {
char str[1024];
RBuffer *buf;
va_list ap;
va_start (ap, fmt);
vsnprintf (str, sizeof (str), fmt, ap);
buf = r_core_syscall (core, name, str);
va_end (ap);
return buf;
}
R_API RBuffer *r_core_syscall(RCore *core, const char *name, const char *args) {
RBuffer *b = NULL;
char code[1024];
// arch check
const char *arch = R_UNWRAP5 (core, anal, arch, session, name);
if (arch && strcmp (arch, "x86")) {
R_LOG_ERROR ("architecture not yet supported!");
return 0;
}
int num = r_syscall_get_num (core->anal->syscall, name);
/* FIXME: hack for r_syscall_get_num() returning 128 instead of 0 for x86.
* this is currently held together with duct tape and hope */
if (num == 128) {
num = 0;
}
//bits check
switch (core->rasm->config->bits) {
case 32:
if (strcmp (name, "setup") && !num ) {
R_LOG_ERROR ("syscall not found!");
return 0;
}
break;
case 64:
if (strcmp (name, "read") && !num) {
R_LOG_ERROR ("syscall not found!");
return 0;
}
break;
default:
R_LOG_ERROR ("syscall not found!");
return 0;
}
snprintf (code, sizeof (code),
"sc@syscall(%d);\n"
"main@global(0,1024) { sc(%s);\n"
":int3\n"
"}\n", num, args);
r_egg_reset (core->egg);
// TODO: setup arch/bits/os?
r_egg_load (core->egg, code, 0);
if (!r_egg_compile (core->egg)) {
R_LOG_ERROR ("Cannot compile");
}
if (!r_egg_assemble (core->egg)) {
R_LOG_ERROR ("r_egg_assemble: invalid assembly");
}
if ((b = r_egg_get_bin (core->egg))) {
#if 0
if (b->length > 0) {
for (i = 0; i < b->length; i++) {
r_cons_printf ("%02x", b->buf[i]);
}
r_cons_printf ("\n");
}
#endif
}
return b;
}
R_API RCoreAutocomplete *r_core_autocomplete_add(RCoreAutocomplete *parent, const char* cmd, int type, bool lock) {
R_RETURN_VAL_IF_FAIL (parent && cmd, NULL);
if (type < 0 || type >= R_CORE_AUTOCMPLT_END) {
return NULL;
}
RCoreAutocomplete *autocmpl = R_NEW0 (RCoreAutocomplete);
if (!autocmpl) {
return NULL;
}
// TODO: use rlist or so
RCoreAutocomplete **updated = realloc (parent->subcmds, (parent->n_subcmds + 1) * sizeof (RCoreAutocomplete*));
if (!updated) {
free (autocmpl);
return NULL;
}
parent->subcmds = updated;
parent->subcmds[parent->n_subcmds] = autocmpl;
parent->n_subcmds++;
autocmpl->cmd = strdup (cmd);
autocmpl->locked = lock;
autocmpl->type = type;
autocmpl->length = strlen (cmd);
return autocmpl;
}
R_API void r_core_autocomplete_free(RCoreAutocomplete *obj) {
if (obj) {
int i;
for (i = 0; i < obj->n_subcmds; i++) {
r_core_autocomplete_free (obj->subcmds[i]);
obj->subcmds[i] = NULL;
}
free (obj->subcmds);
free (obj->cmd);
free (obj);
}
}
R_API RCoreAutocomplete *r_core_autocomplete_find(RCoreAutocomplete *parent, const char* cmd, bool exact) {
R_RETURN_VAL_IF_FAIL (parent && cmd, NULL);
size_t len = strlen (cmd);
int i;
for (i = 0; i < parent->n_subcmds; i++) {
if (exact && len != parent->subcmds[i]->length) {
continue;
}
if (!strncmp (cmd, parent->subcmds[i]->cmd, len)) {
return parent->subcmds[i];
}
}
return NULL;
}
R_API bool r_core_autocomplete_remove(RCoreAutocomplete *parent, const char* cmd) {
R_RETURN_VAL_IF_FAIL (parent && cmd, false);
int i, j;
for (i = 0; i < parent->n_subcmds; i++) {
RCoreAutocomplete *ac = parent->subcmds[i];
if (ac->locked) {
continue;
}
// if (!strncmp (parent->subcmds[i]->cmd, cmd, parent->subcmds[i]->length)) {
if (r_str_glob (ac->cmd, cmd)) {
for (j = i + 1; j < parent->n_subcmds; j++) {
parent->subcmds[j - 1] = parent->subcmds[j];
parent->subcmds[j] = NULL;
}
r_core_autocomplete_free (ac);
RCoreAutocomplete **updated = realloc (parent->subcmds, (parent->n_subcmds - 1) * sizeof (RCoreAutocomplete*));
if (!updated && (parent->n_subcmds - 1) > 0) {
R_LOG_INFO ("Something really bad has happen.. this should never ever happen");
return false;
}
parent->subcmds = updated;
parent->n_subcmds--;
i--;
}
}
return false;
}
R_API RTable *r_core_table(RCore *core, const char *name) {
RTable *table = r_table_new (R_STR_ISEMPTY (name)? "table": name);
if (table) {
table->cons = core->cons;
}
return table;
}
/* Config helper function for PJ json encodings */
R_API PJ *r_core_pj_new(RCore *core) {
const char *se = r_config_get (core->config, "cfg.json.str");
const char *ne = r_config_get (core->config, "cfg.json.num");
PJEncodingNum number_encoding = PJ_ENCODING_NUM_DEFAULT;
PJEncodingStr string_encoding = PJ_ENCODING_STR_DEFAULT;
if (r_str_startswith (ne, "str")) {
number_encoding = PJ_ENCODING_NUM_STR;
} else if (strstr (ne, "hex")) {
number_encoding = PJ_ENCODING_NUM_HEX;
}
if (!strcmp (se, "base64")) {
string_encoding = PJ_ENCODING_STR_BASE64;
} else if (!strcmp (se, "hex")) {
string_encoding = PJ_ENCODING_STR_HEX;
} else if (!strcmp (se, "array")) {
string_encoding = PJ_ENCODING_STR_ARRAY;
} else if (!strcmp (se, "strip")) {
string_encoding = PJ_ENCODING_STR_STRIP;
}
return pj_new_with_encoding (string_encoding, number_encoding);
}
static void channel_stop(void *u) {
// RCore *core = (RCore *)u;
RThreadChannelPromise *promise = (RThreadChannelPromise*)u;
promise->tc->responses = NULL;
r_th_lock_leave (promise->tc->lock);
#if 0
r_th_lock_free (promise->tc->lock);
#endif
promise->tc->lock = NULL;
// r_th_channel_promise_free (promise);
#if 0
r_th_channel_free (core->chan);
core->chan = NULL;
#endif
}
// reentrant version of RCore.cmd()
R_API char *r_core_cmd_str_r(RCore *core, const char *cmd) {
if (r_str_startswith (cmd, "::")) {
return NULL;
}
if (!core->chan) {
core->chan = r_th_channel_new (thchan_handler, core);
}
RThreadChannelMessage *message = r_th_channel_message_new (core->chan, (const ut8*)cmd, strlen (cmd) + 1);
RThreadChannelPromise *promise = r_th_channel_query (core->chan, message);
r_cons_break_push (channel_stop, promise);
RThreadChannelMessage *response = r_th_channel_promise_wait (promise);
char *res = NULL;
if (response) {
res = response->msg? strdup ((const char *)response->msg): NULL;
}
// r_cons_printf ("%s", response->msg);
r_th_channel_message_free (message);
r_th_channel_promise_free (promise);
if (response && message != response) {
r_th_channel_message_free (response);
}
r_cons_break_pop ();
return res;
}