/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2010 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ #include #include #include #include #include #include #include #include #include #include #include #include "ramdata.h" #include "proto.h" /* * Routines related to interprocess communication * among the truss processes which are controlling * multiple traced processes. */ /* * Function prototypes for static routines in this module. */ void Ecritical(int); void Xcritical(int); /* * Ensure everyone keeps out of each other's way * while writing lines of trace output. */ void Flush() { /* * Except for regions bounded by Eserialize()/Xserialize(), * this is the only place anywhere in the program where a * write() to the trace output file takes place, so here * is where we detect errors writing to the output. */ errno = 0; Ecritical(0); (void) fflush(stdout); Xcritical(0); if (ferror(stdout) && errno) /* error on write(), probably EPIPE */ interrupt = SIGTERM; /* post an interrupt */ } /* * Eserialize() and Xserialize() are used to bracket * a region which may produce large amounts of output, * such as showargs()/dumpargs(). */ void Eserialize() { /* serialize output */ Ecritical(0); } void Xserialize() { (void) fflush(stdout); Xcritical(0); } /* * Enter critical region --- Wait on mutex, lock out other processes. * Lock zero is used to serialize output in situations where multiple processes * may be writing to stdout/stderr and order must be preserved. Most of these * are in expound.c * Lock one is used to protect the table of processes currently being traced * every time a pid is added or removed from the table Ecritical(1)/Xcritical(1) * get called. */ void Ecritical(int num) { int rv; if (num == 0) rv = mutex_lock(&gps->ps_mutex0); else if (num == 1) rv = mutex_lock(&gps->ps_mutex1); else abend("Invalid mutex specified", NULL); if (rv != 0) { char mnum[2]; mnum[0] = '0' + num; mnum[1] = '\0'; errno = rv; perror(command); errmsg("cannot grab mutex #", mnum); } } /* * Exit critical region --- * Release other processes waiting on mutex. */ void Xcritical(int num) { int rv; if (num == 0) rv = mutex_unlock(&gps->ps_mutex0); else if (num == 1) rv = mutex_unlock(&gps->ps_mutex1); else abend("Invalid mutex specified", NULL); if (rv != 0) { char mnum[2]; mnum[0] = '0' + num; mnum[1] = '\0'; errno = rv; perror(command); errmsg("cannot release mutex #", mnum); } } /* * Add process to set of those being traced. */ void procadd(pid_t spid, const char *lwplist) { int i; int j = -1; if (gps == NULL) return; Ecritical(1); for (i = 0; i < sizeof (gps->tpid) / sizeof (gps->tpid[0]); i++) { if (gps->tpid[i] == 0) { if (j == -1) /* remember first vacant slot */ j = i; if (gps->spid[i] == 0) /* this slot is better */ break; } } if (i < sizeof (gps->tpid) / sizeof (gps->tpid[0])) j = i; if (j >= 0) { gps->tpid[j] = getpid(); gps->spid[j] = spid; gps->lwps[j] = lwplist; } Xcritical(1); } /* * Delete process from set of those being traced. */ void procdel() { int i; pid_t tpid; if (gps == NULL) return; tpid = getpid(); Ecritical(1); for (i = 0; i < sizeof (gps->tpid) / sizeof (gps->tpid[0]); i++) { if (gps->tpid[i] == tpid) { gps->tpid[i] = 0; break; } } Xcritical(1); } /* * Determine if the lwp for this process should be traced. */ int lwptrace(pid_t spid, lwpid_t lwpid) { int i; pid_t tpid; const char *lwps; if (gps == NULL) return (0); tpid = getpid(); Ecritical(1); for (i = 0; i < sizeof (gps->tpid) / sizeof (gps->tpid[0]); i++) { if (gps->tpid[i] == tpid && gps->spid[i] == spid) break; } lwps = gps->lwps[i]; Xcritical(1); return (proc_lwp_in_set(lwps, lwpid)); } /* * Check for open of a /proc/nnnnn file. * Return 0 if this is not an open of a /proc file. * Return 1 if the process opened itself. * Return 2 if the process failed to open another process * in truss's set of controlled processes. * Return 3 if the process successfully opened another process * in truss's set of controlled processes. * We notify and wait for the other controlling truss process * to terminate before returning in cases 2 and 3. */ /* ARGSUSED */ int checkproc(private_t *pri) { char *path = pri->sys_path; const pstatus_t *Psp = Pstatus(Proc); struct ps_lwphandle *Lwp = pri->Lwp; const lwpstatus_t *Lsp = pri->lwpstat; int what = Lsp->pr_what; /* one of the SYS_open* syscalls */ int err = Lsp->pr_errno; int pid; int i; const char *dirname; char *next; char *sp1; char *sp2; prgreg_t pc; /* * A bit heuristic ... * Test for the cases: * 1234 * 1234/as * 1234/ctl * 1234/lwp/24/lwpctl * .../1234 * .../1234/as * .../1234/ctl * .../1234/lwp/24/lwpctl * Insert a '\0', if necessary, so the path becomes ".../1234". * * Along the way, watch out for /proc/self and /proc/1234/lwp/agent */ if ((sp1 = strrchr(path, '/')) == NULL) /* last component */ /* EMPTY */; else if (isdigit(*(sp1+1))) { sp1 += strlen(sp1); while (--sp1 > path && isdigit(*sp1)) ; if (*sp1 != '/') return (0); } else if (strcmp(sp1+1, "as") == 0 || strcmp(sp1+1, "ctl") == 0) { *sp1 = '\0'; } else if (strcmp(sp1+1, "lwpctl") == 0) { /* * .../1234/lwp/24/lwpctl * ............ ^-- sp1 */ if (sp1-6 >= path && strncmp(sp1-6, "/agent", 6) == 0) sp1 -= 6; else { while (--sp1 > path && isdigit(*sp1)) ; } if (*sp1 != '/' || (sp1 -= 4) <= path || strncmp(sp1, "/lwp", 4) != 0) return (0); *sp1 = '\0'; } else if (strcmp(sp1+1, "self") != 0) { return (0); } if ((sp2 = strrchr(path, '/')) == NULL) dirname = path; else dirname = sp2 + 1; if (strcmp(dirname, "self") == 0) { pid = Psp->pr_pid; } else if ((pid = strtol(dirname, &next, 10)) < 0 || *next != '\0') { /* dirname not a number */ if (sp1 != NULL) *sp1 = '/'; return (0); } if (sp2 == NULL) dirname = "."; else { *sp2 = '\0'; dirname = path; } if (!Pisprocdir(Proc, dirname) || /* file not in a /proc directory */ pid == getpid() || /* process opened truss's /proc file */ pid == 0) { /* process opened process 0 */ if (sp1 != NULL) *sp1 = '/'; if (sp2 != NULL) *sp2 = '/'; return (0); } if (sp1 != NULL) *sp1 = '/'; if (sp2 != NULL) *sp2 = '/'; /* * Process did open a /proc file --- */ if (pid == Psp->pr_pid) { /* process opened its own /proc file */ /* * In SunOS 5.6 and beyond, self-opens always succeed. */ return (1); } /* * Search for a matching pid in our set of controlled processes. */ for (i = 0; i < sizeof (gps->tpid)/sizeof (gps->tpid[0]); i++) { if (gps->spid[i] == pid) { pid = gps->tpid[i]; break; } } if (i >= sizeof (gps->tpid) / sizeof (gps->tpid[0])) { /* * The process opened a /proc file, but not one we care about. */ return (0); } /* * Notify and wait for the controlling process to terminate. */ while (pid && gps->tpid[i] == pid) { if (kill(pid, SIGUSR1) == -1) break; (void) usleep(1000000); } Ecritical(1); if (gps->tpid[i] == 0) gps->spid[i] = 0; Xcritical(1); if (err) { /* prepare to reissue the failed open() system call */ #if defined(__sparc) (void) Lgetareg(Lwp, R_PC, &pc); if (pri->sys_indirect) { (void) Lputareg(Lwp, R_G1, (prgreg_t)SYS_syscall); (void) Lputareg(Lwp, R_O0, (prgreg_t)what); for (i = 0; i < 5; i++) (void) Lputareg(Lwp, R_O1+i, pri->sys_args[i]); } else { (void) Lputareg(Lwp, R_G1, (prgreg_t)what); for (i = 0; i < 6; i++) (void) Lputareg(Lwp, R_O0+i, pri->sys_args[i]); } (void) Lputareg(Lwp, R_nPC, pc); #elif defined(__amd64) (void) Lgetareg(Lwp, R_PC, &pc); (void) Lputareg(Lwp, REG_RAX, (prgreg_t)what); #elif defined(__i386) (void) Lgetareg(Lwp, R_PC, &pc); (void) Lputareg(Lwp, EAX, (prgreg_t)what); #else #error "unrecognized architecture" #endif (void) Pissyscall_prev(Proc, pc, (uintptr_t *)&pc); (void) Lputareg(Lwp, R_PC, pc); return (2); } return (3); }