/* radare2 - LGPL - Copyright 2009-2014 - pancake */ #include "r_core.h" R_API int r_core_setup_debugger (RCore *r, const char *debugbackend) { int pid, *p = NULL; ut8 is_gdb = (strcmp (debugbackend, "gdb") == 0); RIODesc * fd = r->file ? r->file->desc : NULL; p = fd ? fd->data : NULL; r_config_set_i (r->config, "cfg.debug", 1); if (!p) { eprintf ("Invalid debug io\n"); return R_FALSE; } pid = *p; // 1st element in debugger's struct must be int r_config_set (r->config, "io.ff", "true"); if (is_gdb) r_core_cmd (r, "dh gdb", 0); else r_core_cmdf (r, "dh %s", debugbackend); r_core_cmdf (r, "dpa %d", pid); r_core_cmdf (r, "dp=%d", pid); r_core_cmd (r, ".dr*", 0); /* honor dbg.bep */ { const char *bep = r_config_get (r->config, "dbg.bep"); if (bep) { if (!strcmp (bep, "loader")) { /* do nothing here */ } else if (!strcmp (bep, "entry")) r_core_cmd (r, "dcu entry0", 0); else r_core_cmdf (r, "dcu %s", bep); } } r_core_cmd (r, "sr pc", 0); if (r_config_get_i (r->config, "dbg.status")) { r_config_set (r->config, "cmd.prompt", ".dr* ; drd ; sr pc;pi 1;s-"); } else r_config_set (r->config, "cmd.prompt", ".dr*"); r_config_set (r->config, "cmd.vprompt", ".dr*"); return R_TRUE; } R_API int r_core_sync_view_by_fd (RCore *core, ut64 fd) { int res = r_core_file_set_by_fd (core, fd); return res; } R_API int r_core_sync_view_by_file (RCore *core, RCoreFile *cf) { int res = r_core_file_set_by_file (core, cf); return res; } R_API int r_core_seek_base (RCore *core, const char *hex) { int i; ut64 n = 0; ut64 addr = core->offset; ut64 mask = 0LL; char * p; i = strlen (hex) * 4; p = malloc (strlen (hex)+10); if (p) { strcpy (p, "0x"); strcpy (p+2, hex); n = r_num_math (core->num, p); free (p); } mask = UT64_MAX << i; addr = (addr & mask) | n; return r_core_seek (core, addr, 1); } R_API int r_core_dump(RCore *core, const char *file, ut64 addr, ut64 size) { ut64 i; ut8 *buf; int bs = core->blocksize; FILE *fd; r_sys_truncate (file, 0); fd = r_sandbox_fopen (file, "wb"); if (!fd) { eprintf ("Cannot open '%s' for writing\n", file); return R_FALSE; } buf = malloc (bs); r_cons_break (NULL, NULL); for (i=0; ibreaked) break; if ((i+bs)>size) bs = size-i; r_io_read_at (core->io, addr+i, buf, bs); if (fwrite (buf, bs, 1, fd) <1) { eprintf ("write error\n"); break; } } eprintf ("dumped 0x%"PFMT64x" bytes\n", i); r_cons_break_end (); fclose (fd); free (buf); return R_TRUE; } R_API int r_core_write_op(RCore *core, const char *arg, char op) { int i, j, len, ret = R_FALSE; char *str; ut8 *buf; // XXX we can work with config.block instead of dupping it buf = (ut8 *)malloc (core->blocksize); str = (char *)malloc (strlen (arg)+1); if (buf == NULL || str == NULL) goto beach; memcpy (buf, core->block, core->blocksize); if (op!='e') { len = r_hex_str2bin (arg, (ut8 *)str); if (len==-1) { eprintf ("Invalid hexpair string\n"); goto beach; } } else len = 0; if (op=='e') { char *p, *s = strdup (arg); int n, from = 0, to = 0, dif = 0, step = 1; n = from = to; to = UT8_MAX; // p = strchr (s, ' '); if (p) { *p = 0; step = atoi (p+1); } p = strchr (s, '-'); if (p) { *p = 0; to = atoi (p+1); } if (to<1 || to>UT8_MAX) to = UT8_MAX; from = atoi (s); free (s); dif = (to<=from)? UT8_MAX: (to-from)+1; from %= (UT8_MAX+1); if (dif<1) dif = UT8_MAX+1; if (step<1) step = 1; for (i=n=0; iblocksize; i++, n+= step) buf[i] = (ut8)(n%dif)+from; } else if (op=='2' || op=='4') { op -= '0'; for (i=0; iblocksize; i+=op) { /* endian swap */ ut8 tmp = buf[i]; buf[i] = buf[i+3]; buf[i+3] = tmp; if (op==4) { tmp = buf[i+1]; buf[i+1] = buf[i+2]; buf[i+2] = tmp; } } } else { for (i=j=0; iblocksize; i++) { switch (op) { case 'x': buf[i] ^= str[j]; break; case 'a': buf[i] += str[j]; break; case 's': buf[i] -= str[j]; break; case 'm': buf[i] *= str[j]; break; case 'w': buf[i] = str[j]; break; case 'd': buf[i] = (str[j])? buf[i] / str[j]: 0; break; case 'r': buf[i] >>= str[j]; break; case 'l': buf[i] <<= str[j]; break; case 'o': buf[i] |= str[j]; break; case 'A': buf[i] &= str[j]; break; } j++; if (j>=len) j=0; /* cyclic key */ } } ret = r_core_write_at (core, core->offset, buf, core->blocksize); beach: free (buf); free (str); return ret; } R_API int r_core_seek_archbits (RCore *core, ut64 addr) { static char *oldarch = NULL; static int oldbits = 32; int bits = 0;// = core->io->section->bits; const char *arch = r_io_section_get_archbits (core->io, addr, &bits); if (arch && bits) { if (!oldarch) { RBinInfo *info = r_bin_get_info (core->bin); if (info) { oldarch = strdup (info->arch); oldbits = info->bits; } else { oldarch = strdup (r_config_get (core->config, "asm.arch")); oldbits = 32; } } r_config_set (core->config, "asm.arch", arch); r_config_set_i (core->config, "asm.bits", bits); return 1; } if (oldarch) { r_config_set (core->config, "asm.arch", oldarch); r_config_set_i (core->config, "asm.bits", oldbits); free (oldarch); oldarch = NULL; } return 0; } R_API boolt r_core_seek(RCore *core, ut64 addr, boolt rb) { RIOSection *newsection; ut64 old = core->offset; ut64 ret; core->offset = addr; /* XXX unnecesary call */ //r_io_use_fd (core->io, core->file->desc); core->io->section = core->section; // HACK ret = r_io_seek (core->io, addr, R_IO_SEEK_SET); newsection = core->io->section; if (ret == UT64_MAX) { //eprintf ("RET =%d %llx\n", ret, addr); /* XXX handle read errors correctly if (core->io->ff) { core->offset = addr; } else return R_FALSE; */ //core->offset = addr; if (!core->io->va) return R_FALSE; //memset (core->block, 0xff, core->blocksize); } else core->offset = addr; if (rb) { ret = r_core_block_read (core, 0); if (core->io->ff) { if (ret<1 || ret > core->blocksize) memset (core->block, 0xff, core->blocksize); else memset (core->block+ret, 0xff, core->blocksize-ret); ret = core->blocksize; core->offset = addr; } else { if (ret<1) { core->offset = old; //eprintf ("Cannot read block at 0x%08"PFMT64x"\n", addr); } } } if (core->section != newsection) { r_core_seek_archbits (core, core->offset); core->section = newsection; } return (ret==-1)? R_FALSE: R_TRUE; } R_API int r_core_seek_delta(RCore *core, st64 addr) { ut64 tmp = core->offset; int ret; if (addr == 0) return R_TRUE; if (addr>0LL) { /* check end of file */ if (0) addr = 0; else addr += tmp; } else { /* check < 0 */ if (-addr > tmp) addr = 0; else addr += tmp; } core->offset = addr; ret = r_core_seek (core, addr, 1); //ret = r_core_block_read (core, 0); //if (ret == -1) // memset (core->block, 0xff, core->blocksize); // core->offset = tmp; return ret; } R_API int r_core_write_at(RCore *core, ut64 addr, const ut8 *buf, int size) { int ret; if (!core->io || !core->file || size<1) return R_FALSE; ret = r_io_use_desc (core->io, core->file->desc); if (ret != -1) { ret = r_io_write_at (core->io, addr, buf, size); if (addr >= core->offset && addr <= core->offset+core->blocksize) r_core_block_read (core, 0); } core->file->size = r_io_size (core->io); return (ret==-1)? R_FALSE: R_TRUE; } R_API int r_core_extend_at(RCore *core, ut64 addr, int size) { int ret; if (!core->io || !core->file || size<1) return R_FALSE; //ret = r_io_use_fd (core->io, core->file->desc->fd); ret = r_io_use_desc (core->io, core->file->desc); if (ret != -1) { ret = r_io_extend_at (core->io, addr, size); if (addr >= core->offset && addr <= core->offset+core->blocksize) r_core_block_read (core, 0); } core->file->size = r_io_size (core->io); return (ret==-1)? R_FALSE: R_TRUE; } R_API int r_core_shift_block(RCore *core, ut64 addr, ut64 b_size, st64 dist) { // bstart - block start, fstart file start ut64 fend = 0, fstart = 0, bstart = 0, file_sz = 0; ut8 * shift_buf = NULL; int res = R_FALSE; if (b_size == 0 || b_size == (ut64) -1) { res = r_io_use_desc (core->io, core->file->desc); file_sz = r_io_size (core->io); bstart = r_io_seek (core->io, addr, R_IO_SEEK_SET); fend = r_io_seek (core->io, 0, R_IO_SEEK_END); fstart = file_sz - fend; b_size = fend > bstart ? fend - bstart: 0; } if (!core->io || !core->file || b_size<1) return R_FALSE; // XXX handling basic cases atm shift_buf = malloc (b_size); memset (shift_buf, 0, b_size); // cases // addr + b_size + dist > file_end //if ( (addr+b_size) + dist > file_end ) { // res = R_FALSE; //} // addr + b_size + dist < file_start (should work since dist is signed) //else if ( (addr+b_size) + dist < 0 ) { // res = R_FALSE; //} // addr + dist < file_start if ( addr + dist < fstart ) { res = R_FALSE; } // addr + dist > file_end else if ( (addr) + dist > fend) { res = R_FALSE; } else { res = r_io_use_desc (core->io, core->file->desc); r_io_read_at (core->io, addr, shift_buf, b_size); r_io_write_at (core->io, addr+dist, shift_buf, b_size); res = R_TRUE; } r_core_seek (core, addr, 1); free (shift_buf); return res; } static RCoreFile * r_core_file_set_first_valid(RCore *core) { RListIter *iter; RCoreFile *file = NULL; r_list_foreach (core->files, iter, file) { if (file && file->desc){ core->io->raised = file->desc->fd; core->switch_file_view = 1; break; } } return file; } R_API int r_core_block_read(RCore *core, int next) { ut64 off; if (core->file == NULL && r_core_file_set_first_valid(core) == NULL) { memset (core->block, 0xff, core->blocksize); return -1; } r_io_use_fd (core->io, core->io->raised); if (core->switch_file_view) { r_core_sync_view_by_fd (core, core->io->raised); core->switch_file_view = 0; } off = r_io_seek (core->io, core->offset+((next)?core->blocksize:0), R_IO_SEEK_SET); if (off == UT64_MAX) { memset (core->block, 0xff, core->blocksize); // TODO: do continuation in io if (!core->io->va) return -1; } if (off != UT64_MAX) core->io->off = off; return (int)r_io_read (core->io, core->block, core->blocksize); } // seems broken, we should always use r_io api. and remove all the calls to r_core_read() R_API int r_core_read_at(RCore *core, ut64 addr, ut8 *buf, int size) { int ret; if (!core->io || !core->file || size<1) return R_FALSE; #if 0 r_io_use_fd (core->io, core->file->desc); // XXX ignore ret? -- ultra slow method.. inverse resolution of io plugin brbrb ret = r_io_read_at (core->io, addr, buf, size); if (addr>=core->offset && addr<=core->offset+core->blocksize) r_core_block_read (core, 0); #else r_io_use_desc (core->io, core->file->desc); // XXX ignore ret? -- ultra slow method.. inverse resolution of io plugin brbrb //ret = r_io_read_at (core->io, addr, buf, size); r_io_seek (core->io, addr, R_IO_SEEK_SET); ret = r_io_read (core->io, buf, size); if (ret != size) { if (ret>=size || ret<0) ret = 0; memset (buf+ret, 0xff, size-ret); } if (addr>=core->offset && addr<=core->offset+core->blocksize) r_core_block_read (core, 0); #endif return (ret==size); }