/* $NetBSD: kgdb_stub.c,v 1.18 2009/11/27 03:23:15 rmind Exp $ */ /* * Copyright (c) 1990, 1993 * The Regents of the University of California. All rights reserved. * * This software was developed by the Computer Systems Engineering group * at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and * contributed to Berkeley. * * All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Lawrence Berkeley Laboratories. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * @(#)kgdb_stub.c 8.4 (Berkeley) 1/12/94 */ /* * "Stub" to allow remote CPU to debug over a serial line using gdb. */ #include __KERNEL_RCSID(0, "$NetBSD: kgdb_stub.c,v 1.18 2009/11/27 03:23:15 rmind Exp $"); #include "opt_kgdb.h" #ifdef KGDB #ifndef lint static char rcsid[] = "$NetBSD: kgdb_stub.c,v 1.18 2009/11/27 03:23:15 rmind Exp $"; #endif #include #include #include #include #include #include #include #include #include #include #include extern int kernacc(); extern void chgkprot(); #ifndef KGDB_DEV #define KGDB_DEV NODEV #endif #ifndef KGDB_DEVRATE #define KGDB_DEVRATE 9600 #endif dev_t kgdb_dev = KGDB_DEV; /* remote debugging device (NODEV if none) */ int kgdb_rate = KGDB_DEVRATE; /* remote debugging baud rate */ int kgdb_active = 0; /* remote debugging active if != 0 */ int kgdb_debug_init = 0; /* != 0 waits for remote at system init */ int kgdb_debug_panic = 1; /* != 0 waits for remote on panic */ int kgdb_debug = 0; #define GETC ((*kgdb_getc)(kgdb_dev)) #define PUTC(c) ((*kgdb_putc)(kgdb_dev, c)) #define PUTESC(c) { \ if (c == FRAME_END) { \ PUTC(FRAME_ESCAPE); \ c = TRANS_FRAME_END; \ } else if (c == FRAME_ESCAPE) { \ PUTC(FRAME_ESCAPE); \ c = TRANS_FRAME_ESCAPE; \ } else if (c == FRAME_START) { \ PUTC(FRAME_ESCAPE); \ c = TRANS_FRAME_START; \ } \ PUTC(c); \ } static int (*kgdb_getc)(); static int (*kgdb_putc)(); /* * Send a message. The host gets one chance to read it. */ static void kgdb_send(u_char type, u_char *bp, int len) { u_char csum; u_char *ep = bp + len; PUTC(FRAME_START); PUTESC(type); csum = type; while (bp < ep) { type = *bp++; csum += type; PUTESC(type) } csum = -csum; PUTESC(csum) PUTC(FRAME_END); } static int kgdb_recv(u_char *bp, int *lenp) { u_char c, csum; int escape, len; int type; restart: csum = len = escape = 0; type = -1; while (1) { c = GETC; switch (c) { case FRAME_ESCAPE: escape = 1; continue; case TRANS_FRAME_ESCAPE: if (escape) c = FRAME_ESCAPE; break; case TRANS_FRAME_END: if (escape) c = FRAME_END; break; case TRANS_FRAME_START: if (escape) c = FRAME_START; break; case FRAME_START: goto restart; case FRAME_END: if (type < 0 || --len < 0) { csum = len = escape = 0; type = -1; continue; } if (csum != 0) { return (0); } *lenp = len; return type; } csum += c; if (type < 0) { type = c; escape = 0; continue; } if (++len > SL_RPCSIZE) { while (GETC != FRAME_END) ; return (0); } *bp++ = c; escape = 0; } } /* * Translate a trap number into a unix compatible signal value. * (gdb only understands unix signal numbers). */ static int computeSignal(int type) { int sigval; switch (type) { case T_BUSERR: case T_ADDRERR: sigval = SIGBUS; break; case T_ILLINST: case T_PRIVINST: sigval = SIGILL; break; case T_ZERODIV: case T_CHKINST: case T_TRAPVINST: sigval = SIGFPE; break; case T_TRACE: sigval = SIGTRAP; break; case T_MMUFLT: sigval = SIGSEGV; break; case T_SSIR: sigval = SIGSEGV; break; case T_FMTERR: sigval = SIGILL; break; case T_FPERR: case T_COPERR: sigval = SIGFPE; break; case T_ASTFLT: sigval = SIGINT; break; case T_TRAP15: sigval = SIGTRAP; break; default: sigval = SIGEMT; break; } return (sigval); } /* * Trap into kgdb to wait for debugger to connect, * noting on the console why nothing else is going on. */ void kgdb_connect(int verbose) { if (verbose) printf("kgdb waiting..."); /* trap into kgdb */ __asm("trap #15;"); if (verbose) printf("connected.\n"); } /* * Decide what to do on panic. */ void kgdb_panic(void) { if (kgdb_active == 0 && kgdb_debug_panic && kgdb_dev != NODEV) kgdb_connect(1); } /* * Definitions exported from gdb. */ #define NUM_REGS 18 #define REGISTER_BYTES ((16+2)*4) #define REGISTER_BYTE(N) ((N)*4) #define GDB_SR 16 #define GDB_PC 17 static inline void kgdb_copy(u_char *src, u_char *dst, u_int nbytes) { u_char *ep = src + nbytes; while (src < ep) *dst++ = *src++; } /* * There is a short pad word between SP (A7) and SR which keeps the * kernel stack long word aligned (note that this is in addition to * the stack adjust short that we treat as the upper half of a longword * SR). We must skip this when copying into and out of gdb. */ static inline void regs_to_gdb(struct frame *fp, u_long *regs) { kgdb_copy((u_char *)fp->f_regs, (u_char *)regs, 16*4); kgdb_copy((u_char *)&fp->f_stackadj, (u_char *)®s[GDB_SR], 2*4); } static inline void gdb_to_regs(struct frame *fp, u_long *regs) { kgdb_copy((u_char *)regs, (u_char *)fp->f_regs, 16*4); kgdb_copy((u_char *)®s[GDB_SR], (u_char *)&fp->f_stackadj, 2*4); } static u_long reg_cache[NUM_REGS]; static u_char inbuffer[SL_RPCSIZE+1]; static u_char outbuffer[SL_RPCSIZE]; /* * This function does all command procesing for interfacing to * a remote gdb. */ int kgdb_trap(int type, struct frame *frame) { u_long len; u_char *addr; u_char *cp; u_char out, in; int outlen; int inlen; u_long gdb_regs[NUM_REGS]; if ((int)kgdb_dev < 0) { /* not debugging */ return (0); } if (kgdb_active == 0) { if (type != T_TRAP15) { /* No debugger active -- let trap handle this. */ return (0); } kgdb_getc = 0; for (inlen = 0; constab[inlen].cn_probe; inlen++) if (major(constab[inlen].cn_dev) == major(kgdb_dev)) { kgdb_getc = constab[inlen].cn_getc; kgdb_putc = constab[inlen].cn_putc; break; } if (kgdb_getc == 0 || kgdb_putc == 0) return (0); /* * If the packet that woke us up isn't an exec packet, * ignore it since there is no active debugger. Also, * we check that it's not an ack to be sure that the * remote side doesn't send back a response after the * local gdb has exited. Otherwise, the local host * could trap into gdb if it's running a gdb kernel too. */ in = GETC; /* * If we came in asynchronously through the serial line, * the framing character is eaten by the receive interrupt, * but if we come in through a synchronous trap (i.e., via * kgdb_connect()), we will see the extra character. */ if (in == FRAME_START) in = GETC; /* * Check that this is a debugger exec message. If so, * slurp up the entire message then ack it, and fall * through to the recv loop. */ if (KGDB_CMD(in) != KGDB_EXEC || (in & KGDB_ACK) != 0) return (0); while (GETC != FRAME_END) ; /* * Do the printf *before* we ack the message. This way * we won't drop any inbound characters while we're * doing the polling printf. */ printf("kgdb started from device %x\n", kgdb_dev); kgdb_send(in | KGDB_ACK, (u_char *)0, 0); kgdb_active = 1; } /* * Stick frame regs into our reg cache then tell remote host * that an exception has occurred. */ regs_to_gdb(frame, gdb_regs); if (type != T_TRAP15) { /* * Only send an asynchronous SIGNAL message when we hit * a breakpoint. Otherwise, we will drop the incoming * packet while we output this one (and on entry the other * side isn't interested in the SIGNAL type -- if it is, * it will have used a signal packet.) */ outbuffer[0] = computeSignal(type); kgdb_send(KGDB_SIGNAL, outbuffer, 1); } while (1) { in = kgdb_recv(inbuffer, &inlen); if (in == 0 || (in & KGDB_ACK)) /* Ignore inbound acks and error conditions. */ continue; out = in | KGDB_ACK; switch (KGDB_CMD(in)) { case KGDB_SIGNAL: /* * if this command came from a running gdb, * answer it -- the other guy has no way of * knowing if we're in or out of this loop * when he issues a "remote-signal". (Note * that without the length check, we could * loop here forever if the ourput line is * looped back or the remote host is echoing.) */ if (inlen == 0) { outbuffer[0] = computeSignal(type); kgdb_send(KGDB_SIGNAL, outbuffer, 1); } continue; case KGDB_REG_R: case KGDB_REG_R | KGDB_DELTA: cp = outbuffer; outlen = 0; for (len = inbuffer[0]; len < NUM_REGS; ++len) { if (reg_cache[len] != gdb_regs[len] || (in & KGDB_DELTA) == 0) { if (outlen + 5 > SL_MAXDATA) { out |= KGDB_MORE; break; } cp[outlen] = len; kgdb_copy((u_char *)&gdb_regs[len], &cp[outlen + 1], 4); reg_cache[len] = gdb_regs[len]; outlen += 5; } } break; case KGDB_REG_W: case KGDB_REG_W | KGDB_DELTA: cp = inbuffer; for (len = 0; len < inlen; len += 5) { int j = cp[len]; kgdb_copy(&cp[len + 1], (u_char *)&gdb_regs[j], 4); reg_cache[j] = gdb_regs[j]; } gdb_to_regs(frame, gdb_regs); outlen = 0; break; case KGDB_MEM_R: len = inbuffer[0]; kgdb_copy(&inbuffer[1], (u_char *)&addr, 4); if (len > SL_MAXDATA) { outlen = 1; outbuffer[0] = E2BIG; } else if (!kgdb_acc(addr, len, B_READ)) { outlen = 1; outbuffer[0] = EFAULT; } else { outlen = len + 1; outbuffer[0] = 0; kgdb_copy(addr, &outbuffer[1], len); } break; case KGDB_MEM_W: len = inlen - 4; kgdb_copy(inbuffer, (u_char *)&addr, 4); outlen = 1; if (!kgdb_acc(addr, len, B_READ)) outbuffer[0] = EFAULT; else { outbuffer[0] = 0; if (!kgdb_acc(addr, len, B_WRITE)) chgkprot(addr, len, B_WRITE); kgdb_copy(&inbuffer[4], addr, len); ICIA(); } break; case KGDB_KILL: kgdb_active = 0; printf("kgdb detached\n"); /* fall through */ case KGDB_CONT: kgdb_send(out, 0, 0); frame->f_sr &=~ PSL_T; return (1); case KGDB_STEP: kgdb_send(out, 0, 0); frame->f_sr |= PSL_T; return (1); case KGDB_EXEC: default: /* Unknown command. Ack with a null message. */ outlen = 0; break; } /* Send the reply */ kgdb_send(out, outbuffer, outlen); } } /* * XXX do kernacc call if safe, otherwise attempt * to simulate by simple bounds-checking. */ int kgdb_acc(void *addr, int len, int rw) { extern char kstack[]; /* XXX */ extern char *kernel_map; /* XXX! */ if (kernel_map != NULL) return (kernacc(addr, len, rw)); if (addr < uvm_lwp_getuarea(&lwp0) + USPACE || kstack <= addr && addr < kstack + USPACE) return (1); return (0); } #endif /* KGDB */