remote_gdb.cc revision 12449:2260f4a68210
1/* 2 * Copyright 2015 LabWare 3 * Copyright 2014 Google, Inc. 4 * Copyright (c) 2002-2005 The Regents of The University of Michigan 5 * All rights reserved. 6 * 7 * Redistribution and use in source and binary forms, with or without 8 * modification, are permitted provided that the following conditions are 9 * met: redistributions of source code must retain the above copyright 10 * notice, this list of conditions and the following disclaimer; 11 * redistributions in binary form must reproduce the above copyright 12 * notice, this list of conditions and the following disclaimer in the 13 * documentation and/or other materials provided with the distribution; 14 * neither the name of the copyright holders nor the names of its 15 * contributors may be used to endorse or promote products derived from 16 * this software without specific prior written permission. 17 * 18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 22 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 23 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 24 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 25 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 26 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 27 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 28 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 29 * 30 * Authors: Nathan Binkert 31 * Boris Shingarov 32 */ 33 34/* 35 * Copyright (c) 1990, 1993 The Regents of the University of California 36 * All rights reserved 37 * 38 * This software was developed by the Computer Systems Engineering group 39 * at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and 40 * contributed to Berkeley. 41 * 42 * All advertising materials mentioning features or use of this software 43 * must display the following acknowledgement: 44 * This product includes software developed by the University of 45 * California, Lawrence Berkeley Laboratories. 46 * 47 * Redistribution and use in source and binary forms, with or without 48 * modification, are permitted provided that the following conditions 49 * are met: 50 * 1. Redistributions of source code must retain the above copyright 51 * notice, this list of conditions and the following disclaimer. 52 * 2. Redistributions in binary form must reproduce the above copyright 53 * notice, this list of conditions and the following disclaimer in the 54 * documentation and/or other materials provided with the distribution. 55 * 3. All advertising materials mentioning features or use of this software 56 * must display the following acknowledgement: 57 * This product includes software developed by the University of 58 * California, Berkeley and its contributors. 59 * 4. Neither the name of the University nor the names of its contributors 60 * may be used to endorse or promote products derived from this software 61 * without specific prior written permission. 62 * 63 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 64 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 65 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 66 * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 67 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 68 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 69 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 70 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 71 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 72 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 73 * SUCH DAMAGE. 74 * 75 * @(#)kgdb_stub.c 8.4 (Berkeley) 1/12/94 76 */ 77 78/*- 79 * Copyright (c) 2001 The NetBSD Foundation, Inc. 80 * All rights reserved. 81 * 82 * This code is derived from software contributed to The NetBSD Foundation 83 * by Jason R. Thorpe. 84 * 85 * Redistribution and use in source and binary forms, with or without 86 * modification, are permitted provided that the following conditions 87 * are met: 88 * 1. Redistributions of source code must retain the above copyright 89 * notice, this list of conditions and the following disclaimer. 90 * 2. Redistributions in binary form must reproduce the above copyright 91 * notice, this list of conditions and the following disclaimer in the 92 * documentation and/or other materials provided with the distribution. 93 * 3. All advertising materials mentioning features or use of this software 94 * must display the following acknowledgement: 95 * This product includes software developed by the NetBSD 96 * Foundation, Inc. and its contributors. 97 * 4. Neither the name of The NetBSD Foundation nor the names of its 98 * contributors may be used to endorse or promote products derived 99 * from this software without specific prior written permission. 100 * 101 * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 102 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 103 * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 104 * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 105 * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 106 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 107 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 108 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 109 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 110 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 111 * POSSIBILITY OF SUCH DAMAGE. 112 */ 113 114/* 115 * $NetBSD: kgdb_stub.c,v 1.8 2001/07/07 22:58:00 wdk Exp $ 116 * 117 * Taken from NetBSD 118 * 119 * "Stub" to allow remote cpu to debug over a serial line using gdb. 120 */ 121 122#include "base/remote_gdb.hh" 123 124#include <sys/signal.h> 125#include <unistd.h> 126 127#include <csignal> 128#include <cstdint> 129#include <cstdio> 130#include <string> 131 132#include "arch/vtophys.hh" 133#include "base/intmath.hh" 134#include "base/socket.hh" 135#include "base/trace.hh" 136#include "config/the_isa.hh" 137#include "cpu/base.hh" 138#include "cpu/static_inst.hh" 139#include "cpu/thread_context.hh" 140#include "debug/GDBAll.hh" 141#include "mem/fs_translating_port_proxy.hh" 142#include "mem/port.hh" 143#include "mem/se_translating_port_proxy.hh" 144#include "sim/full_system.hh" 145#include "sim/system.hh" 146 147using namespace std; 148using namespace TheISA; 149 150static const char GDBStart = '$'; 151static const char GDBEnd = '#'; 152static const char GDBGoodP = '+'; 153static const char GDBBadP = '-'; 154 155static const int GDBPacketBufLen = 1024; 156 157vector<BaseRemoteGDB *> debuggers; 158 159class HardBreakpoint : public PCEvent 160{ 161 private: 162 BaseRemoteGDB *gdb; 163 164 public: 165 int refcount; 166 167 public: 168 HardBreakpoint(BaseRemoteGDB *_gdb, PCEventQueue *q, Addr pc) 169 : PCEvent(q, "HardBreakpoint Event", pc), 170 gdb(_gdb), refcount(0) 171 { 172 DPRINTF(GDBMisc, "creating hardware breakpoint at %#x\n", evpc); 173 } 174 175 const std::string name() const { return gdb->name() + ".hwbkpt"; } 176 177 void 178 process(ThreadContext *tc) override 179 { 180 DPRINTF(GDBMisc, "handling hardware breakpoint at %#x\n", pc()); 181 182 if (tc == gdb->tc) 183 gdb->trap(SIGTRAP); 184 } 185}; 186 187namespace { 188 189// Exception to throw when the connection to the client is broken. 190struct BadClient 191{ 192 const char *warning; 193 BadClient(const char *_warning=NULL) : warning(_warning) 194 {} 195}; 196 197// Exception to throw when an error needs to be reported to the client. 198struct CmdError 199{ 200 string error; 201 CmdError(std::string _error) : error(_error) 202 {} 203}; 204 205// Exception to throw when something isn't supported. 206class Unsupported {}; 207 208// Convert a hex digit into an integer. 209// This returns -1 if the argument passed is no valid hex digit. 210int 211digit2i(char c) 212{ 213 if (c >= '0' && c <= '9') 214 return (c - '0'); 215 else if (c >= 'a' && c <= 'f') 216 return (c - 'a' + 10); 217 else if (c >= 'A' && c <= 'F') 218 return (c - 'A' + 10); 219 else 220 return (-1); 221} 222 223// Convert the low 4 bits of an integer into an hex digit. 224char 225i2digit(int n) 226{ 227 return ("0123456789abcdef"[n & 0x0f]); 228} 229 230// Convert a byte array into an hex string. 231void 232mem2hex(char *vdst, const char *vsrc, int len) 233{ 234 char *dst = vdst; 235 const char *src = vsrc; 236 237 while (len--) { 238 *dst++ = i2digit(*src >> 4); 239 *dst++ = i2digit(*src++); 240 } 241 *dst = '\0'; 242} 243 244// Convert an hex string into a byte array. 245// This returns a pointer to the character following the last valid 246// hex digit. If the string ends in the middle of a byte, NULL is 247// returned. 248const char * 249hex2mem(char *vdst, const char *src, int maxlen) 250{ 251 char *dst = vdst; 252 int msb, lsb; 253 254 while (*src && maxlen--) { 255 msb = digit2i(*src++); 256 if (msb < 0) 257 return (src - 1); 258 lsb = digit2i(*src++); 259 if (lsb < 0) 260 return (NULL); 261 *dst++ = (msb << 4) | lsb; 262 } 263 return src; 264} 265 266// Convert an hex string into an integer. 267// This returns a pointer to the character following the last valid 268// hex digit. 269Addr 270hex2i(const char **srcp) 271{ 272 const char *src = *srcp; 273 Addr r = 0; 274 int nibble; 275 276 while ((nibble = digit2i(*src)) >= 0) { 277 r *= 16; 278 r += nibble; 279 src++; 280 } 281 *srcp = src; 282 return r; 283} 284 285enum GdbBreakpointType { 286 GdbSoftBp = '0', 287 GdbHardBp = '1', 288 GdbWriteWp = '2', 289 GdbReadWp = '3', 290 GdbAccWp = '4', 291}; 292 293const char * 294break_type(char c) 295{ 296 switch(c) { 297 case GdbSoftBp: return "software breakpoint"; 298 case GdbHardBp: return "hardware breakpoint"; 299 case GdbWriteWp: return "write watchpoint"; 300 case GdbReadWp: return "read watchpoint"; 301 case GdbAccWp: return "access watchpoint"; 302 default: return "unknown breakpoint/watchpoint"; 303 } 304} 305 306std::map<Addr, HardBreakpoint *> hardBreakMap; 307 308EventQueue * 309getComInstEventQueue(ThreadContext *tc) 310{ 311 return tc->getCpuPtr()->comInstEventQueue[tc->threadId()]; 312} 313 314} 315 316BaseRemoteGDB::BaseRemoteGDB(System *_system, ThreadContext *c, int _port) : 317 connectEvent(nullptr), dataEvent(nullptr), _port(_port), fd(-1), 318 active(false), attached(false), sys(_system), tc(c), 319 trapEvent(this), singleStepEvent(*this) 320{ 321 debuggers.push_back(this); 322} 323 324BaseRemoteGDB::~BaseRemoteGDB() 325{ 326 delete connectEvent; 327 delete dataEvent; 328} 329 330string 331BaseRemoteGDB::name() 332{ 333 return sys->name() + ".remote_gdb"; 334} 335 336void 337BaseRemoteGDB::listen() 338{ 339 if (ListenSocket::allDisabled()) { 340 warn_once("Sockets disabled, not accepting gdb connections"); 341 return; 342 } 343 344 while (!listener.listen(_port, true)) { 345 DPRINTF(GDBMisc, "Can't bind port %d\n", _port); 346 _port++; 347 } 348 349 connectEvent = new ConnectEvent(this, listener.getfd(), POLLIN); 350 pollQueue.schedule(connectEvent); 351 352 ccprintf(cerr, "%d: %s: listening for remote gdb on port %d\n", 353 curTick(), name(), _port); 354} 355 356void 357BaseRemoteGDB::connect() 358{ 359 panic_if(!listener.islistening(), 360 "Cannot accept GDB connections if we're not listening!"); 361 362 int sfd = listener.accept(true); 363 364 if (sfd != -1) { 365 if (isAttached()) 366 close(sfd); 367 else 368 attach(sfd); 369 } 370} 371 372int 373BaseRemoteGDB::port() const 374{ 375 panic_if(!listener.islistening(), 376 "Remote GDB port is unknown until listen() has been called.\n"); 377 return _port; 378} 379 380void 381BaseRemoteGDB::attach(int f) 382{ 383 fd = f; 384 385 dataEvent = new DataEvent(this, fd, POLLIN); 386 pollQueue.schedule(dataEvent); 387 388 attached = true; 389 DPRINTFN("remote gdb attached\n"); 390} 391 392void 393BaseRemoteGDB::detach() 394{ 395 attached = false; 396 active = false; 397 clearSingleStep(); 398 close(fd); 399 fd = -1; 400 401 pollQueue.remove(dataEvent); 402 DPRINTFN("remote gdb detached\n"); 403} 404 405// This function does all command processing for interfacing to a 406// remote gdb. Note that the error codes are ignored by gdb at 407// present, but might eventually become meaningful. (XXX) It might 408// makes sense to use POSIX errno values, because that is what the 409// gdb/remote.c functions want to return. 410bool 411BaseRemoteGDB::trap(int type) 412{ 413 414 if (!attached) 415 return false; 416 417 DPRINTF(GDBMisc, "trap: PC=%s\n", tc->pcState()); 418 419 clearSingleStep(); 420 421 /* 422 * The first entry to this function is normally through 423 * a breakpoint trap in kgdb_connect(), in which case we 424 * must advance past the breakpoint because gdb will not. 425 * 426 * On the first entry here, we expect that gdb is not yet 427 * listening to us, so just enter the interaction loop. 428 * After the debugger is "active" (connected) it will be 429 * waiting for a "signaled" message from us. 430 */ 431 if (!active) { 432 active = true; 433 } else { 434 // Tell remote host that an exception has occurred. 435 send(csprintf("S%02x", type).c_str()); 436 } 437 438 // Stick frame regs into our reg cache. 439 regCachePtr = gdbRegs(); 440 regCachePtr->getRegs(tc); 441 442 char data[GDBPacketBufLen + 1]; 443 GdbCommand::Context cmdCtx; 444 cmdCtx.type = type; 445 cmdCtx.data = &data[1]; 446 447 for (;;) { 448 try { 449 size_t datalen = recv(data, sizeof(data)); 450 if (datalen < 1) 451 throw BadClient(); 452 453 data[datalen] = 0; // Sentinel 454 cmdCtx.cmd_byte = data[0]; 455 cmdCtx.len = datalen - 1; 456 457 auto cmdIt = command_map.find(cmdCtx.cmd_byte); 458 if (cmdIt == command_map.end()) { 459 DPRINTF(GDBMisc, "Unknown command: %c(%#x)\n", 460 cmdCtx.cmd_byte, cmdCtx.cmd_byte); 461 throw Unsupported(); 462 } 463 cmdCtx.cmd = &(cmdIt->second); 464 465 if (!(this->*(cmdCtx.cmd->func))(cmdCtx)) 466 break; 467 468 } catch (BadClient &e) { 469 if (e.warning) 470 warn(e.warning); 471 detach(); 472 break; 473 } catch (Unsupported &e) { 474 send(""); 475 } catch (CmdError &e) { 476 send(e.error.c_str()); 477 } catch (...) { 478 panic("Unrecognzied GDB exception."); 479 } 480 } 481 482 return true; 483} 484 485void 486BaseRemoteGDB::incomingData(int revent) 487{ 488 if (trapEvent.scheduled()) { 489 warn("GDB trap event has already been scheduled!"); 490 return; 491 } 492 493 if (revent & POLLIN) { 494 trapEvent.type(SIGILL); 495 scheduleInstCommitEvent(&trapEvent, 0); 496 } else if (revent & POLLNVAL) { 497 descheduleInstCommitEvent(&trapEvent); 498 detach(); 499 } 500} 501 502uint8_t 503BaseRemoteGDB::getbyte() 504{ 505 uint8_t b; 506 if (::read(fd, &b, sizeof(b)) == sizeof(b)) 507 return b; 508 509 throw BadClient("Couldn't read data from debugger."); 510} 511 512void 513BaseRemoteGDB::putbyte(uint8_t b) 514{ 515 if (::write(fd, &b, sizeof(b)) == sizeof(b)) 516 return; 517 518 throw BadClient("Couldn't write data to the debugger."); 519} 520 521// Receive a packet from gdb 522int 523BaseRemoteGDB::recv(char *bp, int maxlen) 524{ 525 char *p; 526 uint8_t c; 527 int csum; 528 int len; 529 530 do { 531 p = bp; 532 csum = len = 0; 533 // Find the beginning of a packet 534 while ((c = getbyte()) != GDBStart); 535 536 // Read until you find the end of the data in the packet, and keep 537 // track of the check sum. 538 while (len < maxlen) { 539 c = getbyte(); 540 if (c == GDBEnd) 541 break; 542 c &= 0x7f; 543 csum += c; 544 *p++ = c; 545 len++; 546 } 547 548 // Mask the check sum, and terminate the command string. 549 csum &= 0xff; 550 *p = '\0'; 551 552 // If the command was too long, report an error. 553 if (len >= maxlen) { 554 putbyte(GDBBadP); 555 continue; 556 } 557 558 // Bring in the checksum. If the check sum matches, csum will be 0. 559 csum -= digit2i(getbyte()) * 16; 560 csum -= digit2i(getbyte()); 561 562 // If the check sum was correct 563 if (csum == 0) { 564 // Report that the packet was received correctly 565 putbyte(GDBGoodP); 566 // Sequence present? 567 if (bp[2] == ':') { 568 putbyte(bp[0]); 569 putbyte(bp[1]); 570 len -= 3; 571 memcpy(bp, bp+3, len); 572 } 573 break; 574 } 575 // Otherwise, report that there was a mistake. 576 putbyte(GDBBadP); 577 } while (1); 578 579 DPRINTF(GDBRecv, "recv: %s\n", bp); 580 581 return len; 582} 583 584// Send a packet to gdb 585void 586BaseRemoteGDB::send(const char *bp) 587{ 588 const char *p; 589 uint8_t csum, c; 590 591 DPRINTF(GDBSend, "send: %s\n", bp); 592 593 do { 594 p = bp; 595 // Start sending a packet 596 putbyte(GDBStart); 597 // Send the contents, and also keep a check sum. 598 for (csum = 0; (c = *p); p++) { 599 putbyte(c); 600 csum += c; 601 } 602 // Send the ending character. 603 putbyte(GDBEnd); 604 // Send the checksum. 605 putbyte(i2digit(csum >> 4)); 606 putbyte(i2digit(csum)); 607 // Try transmitting over and over again until the other end doesn't 608 // send an error back. 609 c = getbyte(); 610 } while ((c & 0x7f) == GDBBadP); 611} 612 613// Read bytes from kernel address space for debugger. 614bool 615BaseRemoteGDB::read(Addr vaddr, size_t size, char *data) 616{ 617 static Addr lastaddr = 0; 618 static size_t lastsize = 0; 619 620 if (vaddr < 10) { 621 DPRINTF(GDBRead, "read: reading memory location zero!\n"); 622 vaddr = lastaddr + lastsize; 623 } 624 625 DPRINTF(GDBRead, "read: addr=%#x, size=%d", vaddr, size); 626 627 if (FullSystem) { 628 FSTranslatingPortProxy &proxy = tc->getVirtProxy(); 629 proxy.readBlob(vaddr, (uint8_t*)data, size); 630 } else { 631 SETranslatingPortProxy &proxy = tc->getMemProxy(); 632 proxy.readBlob(vaddr, (uint8_t*)data, size); 633 } 634 635#if TRACING_ON 636 if (DTRACE(GDBRead)) { 637 if (DTRACE(GDBExtra)) { 638 char buf[1024]; 639 mem2hex(buf, data, size); 640 DPRINTFNR(": %s\n", buf); 641 } else 642 DPRINTFNR("\n"); 643 } 644#endif 645 646 return true; 647} 648 649// Write bytes to kernel address space for debugger. 650bool 651BaseRemoteGDB::write(Addr vaddr, size_t size, const char *data) 652{ 653 static Addr lastaddr = 0; 654 static size_t lastsize = 0; 655 656 if (vaddr < 10) { 657 DPRINTF(GDBWrite, "write: writing memory location zero!\n"); 658 vaddr = lastaddr + lastsize; 659 } 660 661 if (DTRACE(GDBWrite)) { 662 DPRINTFN("write: addr=%#x, size=%d", vaddr, size); 663 if (DTRACE(GDBExtra)) { 664 char buf[1024]; 665 mem2hex(buf, data, size); 666 DPRINTFNR(": %s\n", buf); 667 } else 668 DPRINTFNR("\n"); 669 } 670 if (FullSystem) { 671 FSTranslatingPortProxy &proxy = tc->getVirtProxy(); 672 proxy.writeBlob(vaddr, (uint8_t*)data, size); 673 } else { 674 SETranslatingPortProxy &proxy = tc->getMemProxy(); 675 proxy.writeBlob(vaddr, (uint8_t*)data, size); 676 } 677 678 return true; 679} 680 681void 682BaseRemoteGDB::singleStep() 683{ 684 if (!singleStepEvent.scheduled()) 685 scheduleInstCommitEvent(&singleStepEvent, 1); 686 trap(SIGTRAP); 687} 688 689void 690BaseRemoteGDB::clearSingleStep() 691{ 692 descheduleInstCommitEvent(&singleStepEvent); 693} 694 695void 696BaseRemoteGDB::setSingleStep() 697{ 698 if (!singleStepEvent.scheduled()) 699 scheduleInstCommitEvent(&singleStepEvent, 1); 700} 701 702void 703BaseRemoteGDB::insertSoftBreak(Addr addr, size_t len) 704{ 705 if (!checkBpLen(len)) 706 throw BadClient("Invalid breakpoint length\n"); 707 708 return insertHardBreak(addr, len); 709} 710 711void 712BaseRemoteGDB::removeSoftBreak(Addr addr, size_t len) 713{ 714 if (!checkBpLen(len)) 715 throw BadClient("Invalid breakpoint length.\n"); 716 717 return removeHardBreak(addr, len); 718} 719 720void 721BaseRemoteGDB::insertHardBreak(Addr addr, size_t len) 722{ 723 if (!checkBpLen(len)) 724 throw BadClient("Invalid breakpoint length\n"); 725 726 DPRINTF(GDBMisc, "Inserting hardware breakpoint at %#x\n", addr); 727 728 HardBreakpoint *&bkpt = hardBreakMap[addr]; 729 if (bkpt == 0) 730 bkpt = new HardBreakpoint(this, &sys->pcEventQueue, addr); 731 732 bkpt->refcount++; 733} 734 735void 736BaseRemoteGDB::removeHardBreak(Addr addr, size_t len) 737{ 738 if (!checkBpLen(len)) 739 throw BadClient("Invalid breakpoint length\n"); 740 741 DPRINTF(GDBMisc, "Removing hardware breakpoint at %#x\n", addr); 742 743 auto i = hardBreakMap.find(addr); 744 if (i == hardBreakMap.end()) 745 throw CmdError("E0C"); 746 747 HardBreakpoint *hbp = (*i).second; 748 if (--hbp->refcount == 0) { 749 delete hbp; 750 hardBreakMap.erase(i); 751 } 752} 753 754void 755BaseRemoteGDB::clearTempBreakpoint(Addr &bkpt) 756{ 757 DPRINTF(GDBMisc, "setTempBreakpoint: addr=%#x\n", bkpt); 758 removeHardBreak(bkpt, sizeof(TheISA::MachInst)); 759 bkpt = 0; 760} 761 762void 763BaseRemoteGDB::setTempBreakpoint(Addr bkpt) 764{ 765 DPRINTF(GDBMisc, "setTempBreakpoint: addr=%#x\n", bkpt); 766 insertHardBreak(bkpt, sizeof(TheISA::MachInst)); 767} 768 769void 770BaseRemoteGDB::scheduleInstCommitEvent(Event *ev, int delta) 771{ 772 EventQueue *eq = getComInstEventQueue(tc); 773 // Here "ticks" aren't simulator ticks which measure time, they're 774 // instructions committed by the CPU. 775 eq->schedule(ev, eq->getCurTick() + delta); 776} 777 778void 779BaseRemoteGDB::descheduleInstCommitEvent(Event *ev) 780{ 781 if (ev->scheduled()) 782 getComInstEventQueue(tc)->deschedule(ev); 783} 784 785std::map<char, BaseRemoteGDB::GdbCommand> BaseRemoteGDB::command_map = { 786 // last signal 787 { '?', { "KGDB_SIGNAL", &BaseRemoteGDB::cmd_signal } }, 788 // set baud (deprecated) 789 { 'b', { "KGDB_SET_BAUD", &BaseRemoteGDB::cmd_unsupported } }, 790 // set breakpoint (deprecated) 791 { 'B', { "KGDB_SET_BREAK", &BaseRemoteGDB::cmd_unsupported } }, 792 // resume 793 { 'c', { "KGDB_CONT", &BaseRemoteGDB::cmd_cont } }, 794 // continue with signal 795 { 'C', { "KGDB_ASYNC_CONT", &BaseRemoteGDB::cmd_async_cont } }, 796 // toggle debug flags (deprecated) 797 { 'd', { "KGDB_DEBUG", &BaseRemoteGDB::cmd_unsupported } }, 798 // detach remote gdb 799 { 'D', { "KGDB_DETACH", &BaseRemoteGDB::cmd_detach } }, 800 // read general registers 801 { 'g', { "KGDB_REG_R", &BaseRemoteGDB::cmd_reg_r } }, 802 // write general registers 803 { 'G', { "KGDB_REG_W", &BaseRemoteGDB::cmd_reg_w } }, 804 // set thread 805 { 'H', { "KGDB_SET_THREAD", &BaseRemoteGDB::cmd_set_thread } }, 806 // step a single cycle 807 { 'i', { "KGDB_CYCLE_STEP", &BaseRemoteGDB::cmd_unsupported } }, 808 // signal then cycle step 809 { 'I', { "KGDB_SIG_CYCLE_STEP", &BaseRemoteGDB::cmd_unsupported } }, 810 // kill program 811 { 'k', { "KGDB_KILL", &BaseRemoteGDB::cmd_detach } }, 812 // read memory 813 { 'm', { "KGDB_MEM_R", &BaseRemoteGDB::cmd_mem_r } }, 814 // write memory 815 { 'M', { "KGDB_MEM_W", &BaseRemoteGDB::cmd_mem_w } }, 816 // read register 817 { 'p', { "KGDB_READ_REG", &BaseRemoteGDB::cmd_unsupported } }, 818 // write register 819 { 'P', { "KGDB_SET_REG", &BaseRemoteGDB::cmd_unsupported } }, 820 // query variable 821 { 'q', { "KGDB_QUERY_VAR", &BaseRemoteGDB::cmd_query_var } }, 822 // set variable 823 { 'Q', { "KGDB_SET_VAR", &BaseRemoteGDB::cmd_unsupported } }, 824 // reset system (deprecated) 825 { 'r', { "KGDB_RESET", &BaseRemoteGDB::cmd_unsupported } }, 826 // step 827 { 's', { "KGDB_STEP", &BaseRemoteGDB::cmd_step } }, 828 // signal and step 829 { 'S', { "KGDB_ASYNC_STEP", &BaseRemoteGDB::cmd_async_step } }, 830 // find out if the thread is alive 831 { 'T', { "KGDB_THREAD_ALIVE", &BaseRemoteGDB::cmd_unsupported } }, 832 // target exited 833 { 'W', { "KGDB_TARGET_EXIT", &BaseRemoteGDB::cmd_unsupported } }, 834 // write memory 835 { 'X', { "KGDB_BINARY_DLOAD", &BaseRemoteGDB::cmd_unsupported } }, 836 // remove breakpoint or watchpoint 837 { 'z', { "KGDB_CLR_HW_BKPT", &BaseRemoteGDB::cmd_clr_hw_bkpt } }, 838 // insert breakpoint or watchpoint 839 { 'Z', { "KGDB_SET_HW_BKPT", &BaseRemoteGDB::cmd_set_hw_bkpt } }, 840}; 841 842bool 843BaseRemoteGDB::checkBpLen(size_t len) 844{ 845 return len == sizeof(MachInst); 846} 847 848bool 849BaseRemoteGDB::cmd_unsupported(GdbCommand::Context &ctx) 850{ 851 DPRINTF(GDBMisc, "Unsupported command: %s\n", ctx.cmd->name); 852 DDUMP(GDBMisc, ctx.data, ctx.len); 853 throw Unsupported(); 854} 855 856 857bool 858BaseRemoteGDB::cmd_signal(GdbCommand::Context &ctx) 859{ 860 send(csprintf("S%02x", ctx.type).c_str()); 861 return true; 862} 863 864bool 865BaseRemoteGDB::cmd_cont(GdbCommand::Context &ctx) 866{ 867 const char *p = ctx.data; 868 if (ctx.len) { 869 Addr newPc = hex2i(&p); 870 tc->pcState(newPc); 871 } 872 clearSingleStep(); 873 return false; 874} 875 876bool 877BaseRemoteGDB::cmd_async_cont(GdbCommand::Context &ctx) 878{ 879 const char *p = ctx.data; 880 hex2i(&p); 881 if (*p++ == ';') { 882 Addr newPc = hex2i(&p); 883 tc->pcState(newPc); 884 } 885 clearSingleStep(); 886 return false; 887} 888 889bool 890BaseRemoteGDB::cmd_detach(GdbCommand::Context &ctx) 891{ 892 detach(); 893 return false; 894} 895 896bool 897BaseRemoteGDB::cmd_reg_r(GdbCommand::Context &ctx) 898{ 899 char buf[2 * regCachePtr->size() + 1]; 900 buf[2 * regCachePtr->size()] = '\0'; 901 mem2hex(buf, regCachePtr->data(), regCachePtr->size()); 902 send(buf); 903 return true; 904} 905 906bool 907BaseRemoteGDB::cmd_reg_w(GdbCommand::Context &ctx) 908{ 909 const char *p = ctx.data; 910 p = hex2mem(regCachePtr->data(), p, regCachePtr->size()); 911 if (p == NULL || *p != '\0') 912 throw CmdError("E01"); 913 914 regCachePtr->setRegs(tc); 915 send("OK"); 916 917 return true; 918} 919 920bool 921BaseRemoteGDB::cmd_set_thread(GdbCommand::Context &ctx) 922{ 923 const char *p = ctx.data + 1; // Ignore the subcommand byte. 924 if (hex2i(&p) != 0) 925 throw CmdError("E01"); 926 send("OK"); 927 return true; 928} 929 930bool 931BaseRemoteGDB::cmd_mem_r(GdbCommand::Context &ctx) 932{ 933 const char *p = ctx.data; 934 Addr addr = hex2i(&p); 935 if (*p++ != ',') 936 throw CmdError("E02"); 937 size_t len = hex2i(&p); 938 if (*p != '\0') 939 throw CmdError("E03"); 940 if (!acc(addr, len)) 941 throw CmdError("E05"); 942 943 char buf[len]; 944 if (!read(addr, len, buf)) 945 throw CmdError("E05"); 946 947 char temp[2 * len + 1]; 948 temp[2 * len] = '\0'; 949 mem2hex(temp, buf, len); 950 send(temp); 951 return true; 952} 953 954bool 955BaseRemoteGDB::cmd_mem_w(GdbCommand::Context &ctx) 956{ 957 const char *p = ctx.data; 958 Addr addr = hex2i(&p); 959 if (*p++ != ',') 960 throw CmdError("E06"); 961 size_t len = hex2i(&p); 962 if (*p++ != ':') 963 throw CmdError("E07"); 964 if (len * 2 > ctx.len - (p - ctx.data)) 965 throw CmdError("E08"); 966 char buf[len]; 967 p = (char *)hex2mem(buf, p, len); 968 if (p == NULL) 969 throw CmdError("E09"); 970 if (!acc(addr, len)) 971 throw CmdError("E0A"); 972 if (!write(addr, len, buf)) 973 throw CmdError("E0B"); 974 send("OK"); 975 return true; 976} 977 978bool 979BaseRemoteGDB::cmd_query_var(GdbCommand::Context &ctx) 980{ 981 if (string(ctx.data, ctx.len - 1) != "C") 982 throw Unsupported(); 983 send("QC0"); 984 return true; 985} 986 987bool 988BaseRemoteGDB::cmd_async_step(GdbCommand::Context &ctx) 989{ 990 const char *p = ctx.data; 991 hex2i(&p); // Ignore the subcommand byte. 992 if (*p++ == ';') { 993 Addr newPc = hex2i(&p); 994 tc->pcState(newPc); 995 } 996 setSingleStep(); 997 return false; 998} 999 1000bool 1001BaseRemoteGDB::cmd_step(GdbCommand::Context &ctx) 1002{ 1003 if (ctx.len) { 1004 const char *p = ctx.data; 1005 Addr newPc = hex2i(&p); 1006 tc->pcState(newPc); 1007 } 1008 setSingleStep(); 1009 return false; 1010} 1011 1012bool 1013BaseRemoteGDB::cmd_clr_hw_bkpt(GdbCommand::Context &ctx) 1014{ 1015 const char *p = ctx.data; 1016 char subcmd = *p++; 1017 if (*p++ != ',') 1018 throw CmdError("E0D"); 1019 Addr addr = hex2i(&p); 1020 if (*p++ != ',') 1021 throw CmdError("E0D"); 1022 size_t len = hex2i(&p); 1023 1024 DPRINTF(GDBMisc, "clear %s, addr=%#x, len=%d\n", 1025 break_type(subcmd), addr, len); 1026 1027 switch (subcmd) { 1028 case GdbSoftBp: 1029 removeSoftBreak(addr, len); 1030 break; 1031 case GdbHardBp: 1032 removeHardBreak(addr, len); 1033 break; 1034 case GdbWriteWp: 1035 case GdbReadWp: 1036 case GdbAccWp: 1037 default: // unknown 1038 throw Unsupported(); 1039 } 1040 send("OK"); 1041 1042 return true; 1043} 1044 1045bool 1046BaseRemoteGDB::cmd_set_hw_bkpt(GdbCommand::Context &ctx) 1047{ 1048 const char *p = ctx.data; 1049 char subcmd = *p++; 1050 if (*p++ != ',') 1051 throw CmdError("E0D"); 1052 Addr addr = hex2i(&p); 1053 if (*p++ != ',') 1054 throw CmdError("E0D"); 1055 size_t len = hex2i(&p); 1056 1057 DPRINTF(GDBMisc, "set %s, addr=%#x, len=%d\n", 1058 break_type(subcmd), addr, len); 1059 1060 switch (subcmd) { 1061 case GdbSoftBp: 1062 insertSoftBreak(addr, len); 1063 break; 1064 case GdbHardBp: 1065 insertHardBreak(addr, len); 1066 break; 1067 case GdbWriteWp: 1068 case GdbReadWp: 1069 case GdbAccWp: 1070 default: // unknown 1071 throw Unsupported(); 1072 } 1073 send("OK"); 1074 1075 return true; 1076} 1077