/* * 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 2012 DEY Storage Systems, Inc. All rights reserved. * Copyright (c) 2018 Joyent, Inc. * Copyright 2024 Oxide Computer Company */ /* * String conversion routines the system structs found in * Solaris core file note sections. These items are not * ELF constructs. However, elfdump contains code for decoding * them, and therefore requires formatting support. */ #include #include #include #include #include #include <_conv.h> #include const char * conv_cnote_type(Word type, Conv_fmt_flags_t fmt_flags, Conv_inv_buf_t *inv_buf) { static const Msg types[] = { MSG_NT_PRSTATUS, MSG_NT_PRFPREG, MSG_NT_PRPSINFO, MSG_NT_PRXREG, MSG_NT_PLATFORM, MSG_NT_AUXV, MSG_NT_GWINDOWS, MSG_NT_ASRS, MSG_NT_LDT, MSG_NT_PSTATUS, 0, 0, MSG_NT_PSINFO, MSG_NT_PRCRED, MSG_NT_UTSNAME, MSG_NT_LWPSTATUS, MSG_NT_LWPSINFO, MSG_NT_PRPRIV, MSG_NT_PRPRIVINFO, MSG_NT_CONTENT, MSG_NT_ZONENAME, MSG_NT_FDINFO, MSG_NT_SPYMASTER, MSG_NT_SECFLAGS, MSG_NT_LWPNAME, MSG_NT_UPANIC, MSG_NT_CWD }; #if NT_NUM != NT_CWD #error "NT_NUM has grown. Update core note types[]" #endif static const conv_ds_msg_t ds_types = { CONV_DS_MSG_INIT(NT_PRSTATUS, types) }; static const conv_ds_t *ds[] = { CONV_DS_ADDR(ds_types), NULL }; return (conv_map_ds(ELFOSABI_NONE, EM_NONE, type, ds, fmt_flags, inv_buf)); } const char * conv_cnote_auxv_type(Word type, Conv_fmt_flags_t fmt_flags, Conv_inv_buf_t *inv_buf) { static const Msg types_0_22[] = { MSG_AUXV_AT_NULL, MSG_AUXV_AT_IGNORE, MSG_AUXV_AT_EXECFD, MSG_AUXV_AT_PHDR, MSG_AUXV_AT_PHENT, MSG_AUXV_AT_PHNUM, MSG_AUXV_AT_PAGESZ, MSG_AUXV_AT_BASE, MSG_AUXV_AT_FLAGS, MSG_AUXV_AT_ENTRY, MSG_AUXV_AT_NOTELF, MSG_AUXV_AT_UID, MSG_AUXV_AT_EUID, MSG_AUXV_AT_GID, MSG_AUXV_AT_EGID, MSG_AUXV_AT_PLATFORM, MSG_AUXV_AT_HWCAP, MSG_AUXV_AT_CLKTCK, MSG_AUXV_AT_FPUCW, MSG_AUXV_AT_DCACHEBSIZE, MSG_AUXV_AT_ICACHEBSIZE, MSG_AUXV_AT_UCACHEBSIZE, MSG_AUXV_AT_IGNOREPPC }; static const conv_ds_msg_t ds_types_0_22 = { CONV_DS_MSG_INIT(0, types_0_22) }; static const Msg types_2000_2011[] = { MSG_AUXV_AT_SUN_UID, MSG_AUXV_AT_SUN_RUID, MSG_AUXV_AT_SUN_GID, MSG_AUXV_AT_SUN_RGID, MSG_AUXV_AT_SUN_LDELF, MSG_AUXV_AT_SUN_LDSHDR, MSG_AUXV_AT_SUN_LDNAME, MSG_AUXV_AT_SUN_LPAGESZ, MSG_AUXV_AT_SUN_PLATFORM, MSG_AUXV_AT_SUN_HWCAP, MSG_AUXV_AT_SUN_IFLUSH, MSG_AUXV_AT_SUN_CPU }; static const conv_ds_msg_t ds_types_2000_2011 = { CONV_DS_MSG_INIT(2000, types_2000_2011) }; static const Msg types_2014_2029[] = { MSG_AUXV_AT_SUN_EXECNAME, MSG_AUXV_AT_SUN_MMU, MSG_AUXV_AT_SUN_LDDATA, MSG_AUXV_AT_SUN_AUXFLAGS, MSG_AUXV_AT_SUN_EMULATOR, MSG_AUXV_AT_SUN_BRANDNAME, MSG_AUXV_AT_SUN_BRAND_AUX1, MSG_AUXV_AT_SUN_BRAND_AUX2, MSG_AUXV_AT_SUN_BRAND_AUX3, MSG_AUXV_AT_SUN_HWCAP2, 0, 0, MSG_AUXV_AT_SUN_COMMPAGE, MSG_AUXV_AT_SUN_FPTYPE, MSG_AUXV_AT_SUN_FPSIZE, MSG_AUXV_AT_SUN_HWCAP3 }; static const conv_ds_msg_t ds_types_2014_2029 = { CONV_DS_MSG_INIT(2014, types_2014_2029) }; static const conv_ds_t *ds[] = { CONV_DS_ADDR(ds_types_0_22), CONV_DS_ADDR(ds_types_2000_2011), CONV_DS_ADDR(ds_types_2014_2029), NULL }; return (conv_map_ds(ELFOSABI_NONE, EM_NONE, type, ds, fmt_flags, inv_buf)); } const char * conv_cnote_signal(Word sig, Conv_fmt_flags_t fmt_flags, Conv_inv_buf_t *inv_buf) { static const Msg sigarr[] = { MSG_SIGHUP, MSG_SIGINT, MSG_SIGQUIT, MSG_SIGILL, MSG_SIGTRAP, MSG_SIGABRT, MSG_SIGEMT, MSG_SIGFPE, MSG_SIGKILL, MSG_SIGBUS, MSG_SIGSEGV, MSG_SIGSYS, MSG_SIGPIPE, MSG_SIGALRM, MSG_SIGTERM, MSG_SIGUSR1, MSG_SIGUSR2, MSG_SIGCHLD, MSG_SIGPWR, MSG_SIGWINCH, MSG_SIGURG, MSG_SIGPOLL, MSG_SIGSTOP, MSG_SIGTSTP, MSG_SIGCONT, MSG_SIGTTIN, MSG_SIGTTOU, MSG_SIGVTALRM, MSG_SIGPROF, MSG_SIGXCPU, MSG_SIGXFSZ, MSG_SIGWAITING, MSG_SIGLWP, MSG_SIGFREEZE, MSG_SIGTHAW, MSG_SIGCANCEL, MSG_SIGLOST, MSG_SIGXRES, MSG_SIGJVM1, MSG_SIGJVM2, }; static const conv_ds_msg_t ds_sigarr = { CONV_DS_MSG_INIT(SIGHUP, sigarr) }; static const conv_ds_t *ds[] = { CONV_DS_ADDR(ds_sigarr), NULL }; return (conv_map_ds(ELFOSABI_NONE, EM_NONE, sig, ds, fmt_flags, inv_buf)); } const char * conv_cnote_fault(Word flt, Conv_fmt_flags_t fmt_flags, Conv_inv_buf_t *inv_buf) { static const Msg fltarr[] = { MSG_FLTILL, MSG_FLTPRIV, MSG_FLTBPT, MSG_FLTTRACE, MSG_FLTACCESS, MSG_FLTBOUNDS, MSG_FLTIOVF, MSG_FLTIZDIV, MSG_FLTFPE, MSG_FLTSTACK, MSG_FLTPAGE, MSG_FLTWATCH, MSG_FLTCPCOVF }; static const conv_ds_msg_t ds_fltarr = { CONV_DS_MSG_INIT(FLTILL, fltarr) }; static const conv_ds_t *ds[] = { CONV_DS_ADDR(ds_fltarr), NULL }; return (conv_map_ds(ELFOSABI_NONE, EM_NONE, flt, ds, fmt_flags, inv_buf)); } const char * conv_cnote_syscall(Word sysnum, Conv_fmt_flags_t fmt_flags, Conv_inv_buf_t *inv_buf) { static const Msg sysnumarr[] = { MSG_SYS_EXIT, MSG_SYS_2, MSG_SYS_READ, MSG_SYS_WRITE, MSG_SYS_OPEN, MSG_SYS_CLOSE, MSG_SYS_7, MSG_SYS_8, MSG_SYS_LINK, MSG_SYS_UNLINK, MSG_SYS_11, MSG_SYS_CHDIR, MSG_SYS_TIME, MSG_SYS_MKNOD, MSG_SYS_CHMOD, MSG_SYS_CHOWN, MSG_SYS_BRK, MSG_SYS_STAT, MSG_SYS_LSEEK, MSG_SYS_GETPID, MSG_SYS_MOUNT, MSG_SYS_22, MSG_SYS_SETUID, MSG_SYS_GETUID, MSG_SYS_STIME, MSG_SYS_PCSAMPLE, MSG_SYS_ALARM, MSG_SYS_FSTAT, MSG_SYS_PAUSE, MSG_SYS_30, MSG_SYS_STTY, MSG_SYS_GTTY, MSG_SYS_ACCESS, MSG_SYS_NICE, MSG_SYS_STATFS, MSG_SYS_SYNC, MSG_SYS_KILL, MSG_SYS_FSTATFS, MSG_SYS_PGRPSYS, MSG_SYS_UUCOPYSTR, MSG_SYS_41, MSG_SYS_PIPE, MSG_SYS_TIMES, MSG_SYS_PROFIL, MSG_SYS_FACCESSAT, MSG_SYS_SETGID, MSG_SYS_GETGID, MSG_SYS_48, MSG_SYS_MSGSYS, MSG_SYS_SYSI86, MSG_SYS_ACCT, MSG_SYS_SHMSYS, MSG_SYS_SEMSYS, MSG_SYS_IOCTL, MSG_SYS_UADMIN, MSG_SYS_FCHOWNAT, MSG_SYS_UTSSYS, MSG_SYS_FDSYNC, MSG_SYS_EXECVE, MSG_SYS_UMASK, MSG_SYS_CHROOT, MSG_SYS_FCNTL, MSG_SYS_ULIMIT, MSG_SYS_RENAMEAT, MSG_SYS_UNLINKAT, MSG_SYS_FSTATAT, MSG_SYS_FSTATAT64, MSG_SYS_OPENAT, MSG_SYS_OPENAT64, MSG_SYS_TASKSYS, MSG_SYS_ACCTCTL, MSG_SYS_EXACCTSYS, MSG_SYS_GETPAGESIZES, MSG_SYS_RCTLSYS, MSG_SYS_SIDSYS, MSG_SYS_76, MSG_SYS_LWP_PARK, MSG_SYS_SENDFILEV, MSG_SYS_RMDIR, MSG_SYS_MKDIR, MSG_SYS_GETDENTS, MSG_SYS_PRIVSYS, MSG_SYS_UCREDSYS, MSG_SYS_SYSFS, MSG_SYS_GETMSG, MSG_SYS_PUTMSG, MSG_SYS_87, MSG_SYS_LSTAT, MSG_SYS_SYMLINK, MSG_SYS_READLINK, MSG_SYS_SETGROUPS, MSG_SYS_GETGROUPS, MSG_SYS_FCHMOD, MSG_SYS_FCHOWN, MSG_SYS_SIGPROCMASK, MSG_SYS_SIGSUSPEND, MSG_SYS_SIGALTSTACK, MSG_SYS_SIGACTION, MSG_SYS_SIGPENDING, MSG_SYS_CONTEXT, MSG_SYS_101, MSG_SYS_102, MSG_SYS_STATVFS, MSG_SYS_FSTATVFS, MSG_SYS_GETLOADAVG, MSG_SYS_NFSSYS, MSG_SYS_WAITID, MSG_SYS_SIGSENDSYS, MSG_SYS_HRTSYS, MSG_SYS_UTIMESYS, MSG_SYS_SIGRESEND, MSG_SYS_PRIOCNTLSYS, MSG_SYS_PATHCONF, MSG_SYS_MINCORE, MSG_SYS_MMAP, MSG_SYS_MPROTECT, MSG_SYS_MUNMAP, MSG_SYS_FPATHCONF, MSG_SYS_VFORK, MSG_SYS_FCHDIR, MSG_SYS_READV, MSG_SYS_WRITEV, MSG_SYS_PREADV, MSG_SYS_PWRITEV, MSG_SYS_UPANIC, MSG_SYS_GETRANDOM, MSG_SYS_MMAPOBJ, MSG_SYS_SETRLIMIT, MSG_SYS_GETRLIMIT, MSG_SYS_LCHOWN, MSG_SYS_MEMCNTL, MSG_SYS_GETPMSG, MSG_SYS_PUTPMSG, MSG_SYS_RENAME, MSG_SYS_UNAME, MSG_SYS_SETEGID, MSG_SYS_SYSCONFIG, MSG_SYS_ADJTIME, MSG_SYS_SYSTEMINFO, MSG_SYS_SHAREFS, MSG_SYS_SETEUID, MSG_SYS_FORKSYS, MSG_SYS_143, MSG_SYS_SIGTIMEDWAIT, MSG_SYS_LWP_INFO, MSG_SYS_YIELD, MSG_SYS_147, MSG_SYS_LWP_SEMA_POST, MSG_SYS_LWP_SEMA_TRYWAIT, MSG_SYS_LWP_DETACH, MSG_SYS_CORECTL, MSG_SYS_MODCTL, MSG_SYS_FCHROOT, MSG_SYS_154, MSG_SYS_VHANGUP, MSG_SYS_GETTIMEOFDAY, MSG_SYS_GETITIMER, MSG_SYS_SETITIMER, MSG_SYS_LWP_CREATE, MSG_SYS_LWP_EXIT, MSG_SYS_LWP_SUSPEND, MSG_SYS_LWP_CONTINUE, MSG_SYS_LWP_KILL, MSG_SYS_LWP_SELF, MSG_SYS_LWP_SIGMASK, MSG_SYS_LWP_PRIVATE, MSG_SYS_LWP_WAIT, MSG_SYS_LWP_MUTEX_WAKEUP, MSG_SYS_169, MSG_SYS_LWP_COND_WAIT, MSG_SYS_LWP_COND_SIGNAL, MSG_SYS_LWP_COND_BROADCAST, MSG_SYS_PREAD, MSG_SYS_PWRITE, MSG_SYS_LLSEEK, MSG_SYS_INST_SYNC, MSG_SYS_BRAND, MSG_SYS_KAIO, MSG_SYS_CPC, MSG_SYS_LGRPSYS, MSG_SYS_RUSAGESYS, MSG_SYS_PORT, MSG_SYS_POLLSYS, MSG_SYS_LABELSYS, MSG_SYS_ACL, MSG_SYS_AUDITSYS, MSG_SYS_PROCESSOR_BIND, MSG_SYS_PROCESSOR_INFO, MSG_SYS_P_ONLINE, MSG_SYS_SIGQUEUE, MSG_SYS_CLOCK_GETTIME, MSG_SYS_CLOCK_SETTIME, MSG_SYS_CLOCK_GETRES, MSG_SYS_TIMER_CREATE, MSG_SYS_TIMER_DELETE, MSG_SYS_TIMER_SETTIME, MSG_SYS_TIMER_GETTIME, MSG_SYS_TIMER_GETOVERRUN, MSG_SYS_NANOSLEEP, MSG_SYS_FACL, MSG_SYS_DOOR, MSG_SYS_SETREUID, MSG_SYS_SETREGID, MSG_SYS_INSTALL_UTRAP, MSG_SYS_SIGNOTIFY, MSG_SYS_SCHEDCTL, MSG_SYS_PSET, MSG_SYS_SPARC_UTRAP_INSTALL, MSG_SYS_RESOLVEPATH, MSG_SYS_LWP_MUTEX_TIMEDLOCK, MSG_SYS_LWP_SEMA_TIMEDWAIT, MSG_SYS_LWP_RWLOCK_SYS, MSG_SYS_GETDENTS64, MSG_SYS_MMAP64, MSG_SYS_STAT64, MSG_SYS_LSTAT64, MSG_SYS_FSTAT64, MSG_SYS_STATVFS64, MSG_SYS_FSTATVFS64, MSG_SYS_SETRLIMIT64, MSG_SYS_GETRLIMIT64, MSG_SYS_PREAD64, MSG_SYS_PWRITE64, MSG_SYS_224, MSG_SYS_OPEN64, MSG_SYS_RPCSYS, MSG_SYS_ZONE, MSG_SYS_AUTOFSSYS, MSG_SYS_GETCWD, MSG_SYS_SO_SOCKET, MSG_SYS_SO_SOCKETPAIR, MSG_SYS_BIND, MSG_SYS_LISTEN, MSG_SYS_ACCEPT, MSG_SYS_CONNECT, MSG_SYS_SHUTDOWN, MSG_SYS_RECV, MSG_SYS_RECVFROM, MSG_SYS_RECVMSG, MSG_SYS_SEND, MSG_SYS_SENDMSG, MSG_SYS_SENDTO, MSG_SYS_GETPEERNAME, MSG_SYS_GETSOCKNAME, MSG_SYS_GETSOCKOPT, MSG_SYS_SETSOCKOPT, MSG_SYS_SOCKCONFIG, MSG_SYS_NTP_GETTIME, MSG_SYS_NTP_ADJTIME, MSG_SYS_LWP_MUTEX_UNLOCK, MSG_SYS_LWP_MUTEX_TRYLOCK, MSG_SYS_LWP_MUTEX_REGISTER, MSG_SYS_CLADM, MSG_SYS_UUCOPY, MSG_SYS_UMOUNT2 }; static const conv_ds_msg_t ds_sysnumarr = { CONV_DS_MSG_INIT(1, sysnumarr) }; static const conv_ds_t *ds[] = { CONV_DS_ADDR(ds_sysnumarr), NULL }; int use_num = 0; /* * Range check, and handle the unused values in the middle * of the range. Although the missing values have strings, * we still prefer to format them, because those strings are * decimal, and the default behavior, unless the CONV_FMT_DECIMAL * flag is set, is to display such things in hex. */ switch (sysnum) { case 0: case 2: case 7: case 8: case 11: case 22: case 30: case 41: case 48: case 76: case 87: case 101: case 102: case 123: case 124: case 125: case 126: case 143: case 147: case 154: case 169: case 224: use_num = 1; break; default: use_num = (sysnum > SYS_umount2); break; } if (use_num) return (conv_invalid_val(inv_buf, sysnum, fmt_flags)); return (conv_map_ds(ELFOSABI_NONE, EM_NONE, sysnum, ds, fmt_flags, inv_buf)); } const char * conv_cnote_errno(int errno_val, Conv_fmt_flags_t fmt_flags, Conv_inv_buf_t *inv_buf) { static const Msg errarr_1_74[74] = { MSG_ERRNO_EPERM, MSG_ERRNO_ENOENT, MSG_ERRNO_ESRCH, MSG_ERRNO_EINTR, MSG_ERRNO_EIO, MSG_ERRNO_ENXIO, MSG_ERRNO_E2BIG, MSG_ERRNO_ENOEXEC, MSG_ERRNO_EBADF, MSG_ERRNO_ECHILD, MSG_ERRNO_EAGAIN, MSG_ERRNO_ENOMEM, MSG_ERRNO_EACCES, MSG_ERRNO_EFAULT, MSG_ERRNO_ENOTBLK, MSG_ERRNO_EBUSY, MSG_ERRNO_EEXIST, MSG_ERRNO_EXDEV, MSG_ERRNO_ENODEV, MSG_ERRNO_ENOTDIR, MSG_ERRNO_EISDIR, MSG_ERRNO_EINVAL, MSG_ERRNO_ENFILE, MSG_ERRNO_EMFILE, MSG_ERRNO_ENOTTY, MSG_ERRNO_ETXTBSY, MSG_ERRNO_EFBIG, MSG_ERRNO_ENOSPC, MSG_ERRNO_ESPIPE, MSG_ERRNO_EROFS, MSG_ERRNO_EMLINK, MSG_ERRNO_EPIPE, MSG_ERRNO_EDOM, MSG_ERRNO_ERANGE, MSG_ERRNO_ENOMSG, MSG_ERRNO_EIDRM, MSG_ERRNO_ECHRNG, MSG_ERRNO_EL2NSYNC, MSG_ERRNO_EL3HLT, MSG_ERRNO_EL3RST, MSG_ERRNO_ELNRNG, MSG_ERRNO_EUNATCH, MSG_ERRNO_ENOCSI, MSG_ERRNO_EL2HLT, MSG_ERRNO_EDEADLK, MSG_ERRNO_ENOLCK, MSG_ERRNO_ECANCELED, MSG_ERRNO_ENOTSUP, MSG_ERRNO_EDQUOT, MSG_ERRNO_EBADE, MSG_ERRNO_EBADR, MSG_ERRNO_EXFULL, MSG_ERRNO_ENOANO, MSG_ERRNO_EBADRQC, MSG_ERRNO_EBADSLT, MSG_ERRNO_EDEADLOCK, MSG_ERRNO_EBFONT, MSG_ERRNO_EOWNERDEAD, MSG_ERRNO_ENOTRECOVERABLE, MSG_ERRNO_ENOSTR, MSG_ERRNO_ENODATA, MSG_ERRNO_ETIME, MSG_ERRNO_ENOSR, MSG_ERRNO_ENONET, MSG_ERRNO_ENOPKG, MSG_ERRNO_EREMOTE, MSG_ERRNO_ENOLINK, MSG_ERRNO_EADV, MSG_ERRNO_ESRMNT, MSG_ERRNO_ECOMM, MSG_ERRNO_EPROTO, MSG_ERRNO_ELOCKUNMAPPED, MSG_ERRNO_ENOTACTIVE, MSG_ERRNO_EMULTIHOP }; static const conv_ds_msg_t ds_errarr_1_74 = { CONV_DS_MSG_INIT(1, errarr_1_74) }; static const Msg errarr_77_99[23] = { MSG_ERRNO_EBADMSG, MSG_ERRNO_ENAMETOOLONG, MSG_ERRNO_EOVERFLOW, MSG_ERRNO_ENOTUNIQ, MSG_ERRNO_EBADFD, MSG_ERRNO_EREMCHG, MSG_ERRNO_ELIBACC, MSG_ERRNO_ELIBBAD, MSG_ERRNO_ELIBSCN, MSG_ERRNO_ELIBMAX, MSG_ERRNO_ELIBEXEC, MSG_ERRNO_EILSEQ, MSG_ERRNO_ENOSYS, MSG_ERRNO_ELOOP, MSG_ERRNO_ERESTART, MSG_ERRNO_ESTRPIPE, MSG_ERRNO_ENOTEMPTY, MSG_ERRNO_EUSERS, MSG_ERRNO_ENOTSOCK, MSG_ERRNO_EDESTADDRREQ, MSG_ERRNO_EMSGSIZE, MSG_ERRNO_EPROTOTYPE, MSG_ERRNO_ENOPROTOOPT }; static const conv_ds_msg_t ds_errarr_77_99 = { CONV_DS_MSG_INIT(77, errarr_77_99) }; static const Msg errarr_120_134[15] = { MSG_ERRNO_EPROTONOSUPPORT, MSG_ERRNO_ESOCKTNOSUPPORT, MSG_ERRNO_EOPNOTSUPP, MSG_ERRNO_EPFNOSUPPORT, MSG_ERRNO_EAFNOSUPPORT, MSG_ERRNO_EADDRINUSE, MSG_ERRNO_EADDRNOTAVAIL, MSG_ERRNO_ENETDOWN, MSG_ERRNO_ENETUNREACH, MSG_ERRNO_ENETRESET, MSG_ERRNO_ECONNABORTED, MSG_ERRNO_ECONNRESET, MSG_ERRNO_ENOBUFS, MSG_ERRNO_EISCONN, MSG_ERRNO_ENOTCONN }; static const conv_ds_msg_t ds_errarr_120_134 = { CONV_DS_MSG_INIT(120, errarr_120_134) }; static const Msg errarr_143_151[9] = { MSG_ERRNO_ESHUTDOWN, MSG_ERRNO_ETOOMANYREFS, MSG_ERRNO_ETIMEDOUT, MSG_ERRNO_ECONNREFUSED, MSG_ERRNO_EHOSTDOWN, MSG_ERRNO_EHOSTUNREACH, MSG_ERRNO_EALREADY, MSG_ERRNO_EINPROGRESS, MSG_ERRNO_ESTALE }; static const conv_ds_msg_t ds_errarr_143_151 = { CONV_DS_MSG_INIT(143, errarr_143_151) }; static const conv_ds_t *ds[] = { CONV_DS_ADDR(ds_errarr_1_74), CONV_DS_ADDR(ds_errarr_77_99), CONV_DS_ADDR(ds_errarr_120_134), CONV_DS_ADDR(ds_errarr_143_151), NULL }; return (conv_map_ds(ELFOSABI_NONE, EM_NONE, errno_val, ds, fmt_flags, inv_buf)); } const char * conv_cnote_pr_dmodel(Word dmodel, Conv_fmt_flags_t fmt_flags, Conv_inv_buf_t *inv_buf) { static const Msg models[] = { MSG_PR_MODEL_UNKNOWN, MSG_PR_MODEL_ILP32, MSG_PR_MODEL_LP64 }; static const conv_ds_msg_t ds_models = { CONV_DS_MSG_INIT(PR_MODEL_UNKNOWN, models) }; static const conv_ds_t *ds[] = { CONV_DS_ADDR(ds_models), NULL }; return (conv_map_ds(ELFOSABI_NONE, EM_NONE, dmodel, ds, fmt_flags, inv_buf)); } const char * conv_cnote_pr_why(short why, Conv_fmt_flags_t fmt_flags, Conv_inv_buf_t *inv_buf) { static const Msg why_arr[] = { MSG_PR_WHY_REQUESTED, MSG_PR_WHY_SIGNALLED, MSG_PR_WHY_SYSENTRY, MSG_PR_WHY_SYSEXIT, MSG_PR_WHY_JOBCONTROL, MSG_PR_WHY_FAULTED, MSG_PR_WHY_SUSPENDED, MSG_PR_WHY_CHECKPOINT }; static const conv_ds_msg_t ds_why_arr = { CONV_DS_MSG_INIT(1, why_arr) }; static const conv_ds_t *ds[] = { CONV_DS_ADDR(ds_why_arr), NULL }; return (conv_map_ds(ELFOSABI_NONE, EM_NONE, why, ds, fmt_flags, inv_buf)); } const char * conv_cnote_pr_what(short why, short what, Conv_fmt_flags_t fmt_flags, Conv_inv_buf_t *inv_buf) { /* * The meaning of pr_what depends on the corresponding * value of pr_why, as discussed in the proc(5) manpage. */ switch (why) { case PR_SIGNALLED: case PR_JOBCONTROL: return (conv_cnote_signal(what, fmt_flags, inv_buf)); case PR_SYSENTRY: case PR_SYSEXIT: return (conv_cnote_syscall(what, fmt_flags, inv_buf)); case PR_FAULTED: return (conv_cnote_fault(what, fmt_flags, inv_buf)); }; return (conv_invalid_val(inv_buf, what, fmt_flags)); } /* * Return the name of the general purpose register indexed by * regno in the pr_reg array of lwpstatus_t (). */ const char * conv_cnote_pr_regname(Half mach, int regno, Conv_fmt_flags_t fmt_flags, Conv_inv_buf_t *inv_buf) { static const Msg sparc_gen_reg[32] = { MSG_REG_SPARC_G0, MSG_REG_SPARC_G1, MSG_REG_SPARC_G2, MSG_REG_SPARC_G3, MSG_REG_SPARC_G4, MSG_REG_SPARC_G5, MSG_REG_SPARC_G6, MSG_REG_SPARC_G7, MSG_REG_SPARC_O0, MSG_REG_SPARC_O1, MSG_REG_SPARC_O2, MSG_REG_SPARC_O3, MSG_REG_SPARC_O4, MSG_REG_SPARC_O5, MSG_REG_SPARC_O6, MSG_REG_SPARC_O7, MSG_REG_SPARC_L0, MSG_REG_SPARC_L1, MSG_REG_SPARC_L2, MSG_REG_SPARC_L3, MSG_REG_SPARC_L4, MSG_REG_SPARC_L5, MSG_REG_SPARC_L6, MSG_REG_SPARC_L7, MSG_REG_SPARC_I0, MSG_REG_SPARC_I1, MSG_REG_SPARC_I2, MSG_REG_SPARC_I3, MSG_REG_SPARC_I4, MSG_REG_SPARC_I5, MSG_REG_SPARC_I6, MSG_REG_SPARC_I7 }; static const conv_ds_msg_t ds_sparc_gen_reg = { CONV_DS_MSG_INIT(0, sparc_gen_reg) }; static const Msg sparc_32_37_reg[6] = { MSG_REG_SPARC_PSR, MSG_REG_SPARC_PC, MSG_REG_SPARC_nPC, MSG_REG_SPARC_Y, MSG_REG_SPARC_WIM, MSG_REG_SPARC_TBR }; static const conv_ds_msg_t ds_sparc_32_37_reg = { CONV_DS_MSG_INIT(32, sparc_32_37_reg) }; static const Msg sparcv9_32_37_reg[6] = { MSG_REG_SPARC_CCR, MSG_REG_SPARC_PC, MSG_REG_SPARC_nPC, MSG_REG_SPARC_Y, MSG_REG_SPARC_ASI, MSG_REG_SPARC_FPRS }; static const conv_ds_msg_t ds_sparcv9_32_37_reg = { CONV_DS_MSG_INIT(32, sparcv9_32_37_reg) }; static const Msg amd64_reg[28] = { MSG_REG_AMD64_R15, MSG_REG_AMD64_R14, MSG_REG_AMD64_R13, MSG_REG_AMD64_R12, MSG_REG_AMD64_R11, MSG_REG_AMD64_R10, MSG_REG_AMD64_R9, MSG_REG_AMD64_R8, MSG_REG_AMD64_RDI, MSG_REG_AMD64_RSI, MSG_REG_AMD64_RBP, MSG_REG_AMD64_RBX, MSG_REG_AMD64_RDX, MSG_REG_AMD64_RCX, MSG_REG_AMD64_RAX, MSG_REG_AMD64_TRAPNO, MSG_REG_AMD64_ERR, MSG_REG_AMD64_RIP, MSG_REG_AMD64_CS, MSG_REG_AMD64_RFL, MSG_REG_AMD64_RSP, MSG_REG_AMD64_SS, MSG_REG_AMD64_FS, MSG_REG_AMD64_GS, MSG_REG_AMD64_ES, MSG_REG_AMD64_DS, MSG_REG_AMD64_FSBASE, MSG_REG_AMD64_GSBASE }; static const conv_ds_msg_t ds_amd64_reg = { CONV_DS_MSG_INIT(0, amd64_reg) }; static const Msg i86_reg[19] = { MSG_REG_I86_GS, MSG_REG_I86_FS, MSG_REG_I86_ES, MSG_REG_I86_DS, MSG_REG_I86_EDI, MSG_REG_I86_ESI, MSG_REG_I86_EBP, MSG_REG_I86_ESP, MSG_REG_I86_EBX, MSG_REG_I86_EDX, MSG_REG_I86_ECX, MSG_REG_I86_EAX, MSG_REG_I86_TRAPNO, MSG_REG_I86_ERR, MSG_REG_I86_EIP, MSG_REG_I86_CS, MSG_REG_I86_EFL, MSG_REG_I86_UESP, MSG_REG_I86_SS }; static const conv_ds_msg_t ds_i86_reg = { CONV_DS_MSG_INIT(0, i86_reg) }; static const conv_ds_t *ds_sparc[] = { CONV_DS_ADDR(ds_sparc_gen_reg), CONV_DS_ADDR(ds_sparc_32_37_reg), NULL }; static const conv_ds_t *ds_sparcv9[] = { CONV_DS_ADDR(ds_sparc_gen_reg), CONV_DS_ADDR(ds_sparcv9_32_37_reg), NULL }; static const conv_ds_t *ds_amd64[] = { CONV_DS_ADDR(ds_amd64_reg), NULL }; static const conv_ds_t *ds_i86[] = { CONV_DS_ADDR(ds_i86_reg), NULL }; const conv_ds_t **ds; switch (mach) { case EM_386: ds = ds_i86; break; case EM_AMD64: ds = ds_amd64; break; case EM_SPARC: case EM_SPARC32PLUS: ds = ds_sparc; break; case EM_SPARCV9: ds = ds_sparcv9; break; default: return (conv_invalid_val(inv_buf, regno, fmt_flags)); } return (conv_map_ds(ELFOSABI_NONE, mach, regno, ds, fmt_flags, inv_buf)); } const char * conv_cnote_pr_stype(Word stype, Conv_fmt_flags_t fmt_flags, Conv_inv_buf_t *inv_buf) { static const Msg types[] = { MSG_SOBJ_NONE, MSG_SOBJ_MUTEX, MSG_SOBJ_RWLOCK, MSG_SOBJ_CV, MSG_SOBJ_SEMA, MSG_SOBJ_USER, MSG_SOBJ_USER_PI, MSG_SOBJ_SHUTTLE }; static const conv_ds_msg_t ds_types = { CONV_DS_MSG_INIT(0, types) }; static const conv_ds_t *ds[] = { CONV_DS_ADDR(ds_types), NULL }; return (conv_map_ds(ELFOSABI_NONE, EM_NONE, stype, ds, fmt_flags, inv_buf)); } const char * conv_cnote_priv(int priv, Conv_fmt_flags_t fmt_flags, Conv_inv_buf_t *inv_buf) { const char *fmt; /* * The PRIV_ constants defined in are unusual * in that they are negative values. The libconv code is all * built around the Word type, which is unsigned. Rather than * modify libconv for this one case, we simply handle * these constants differently that the usual approach, * and stay away from conv_invalid_val() and conv_map_ds(). */ switch (priv) { case PRIV_ALL: return (MSG_ORIG(MSG_PRIV_ALL)); case PRIV_MULTIPLE: return (MSG_ORIG(MSG_PRIV_MULTIPLE)); case PRIV_NONE: return (MSG_ORIG(MSG_PRIV_NONE)); case PRIV_ALLZONE: return (MSG_ORIG(MSG_PRIV_ALLZONE)); case PRIV_GLOBAL: return (MSG_ORIG(MSG_PRIV_GLOBAL)); } fmt = (fmt_flags & CONV_FMT_DECIMAL) ? MSG_ORIG(MSG_FMT_INT) : MSG_ORIG(MSG_FMT_HEXINT); (void) snprintf(inv_buf->buf, sizeof (inv_buf->buf), fmt, priv); return (inv_buf->buf); } const char * conv_cnote_psetid(int id, Conv_fmt_flags_t fmt_flags, Conv_inv_buf_t *inv_buf) { const char *fmt; /* * The PS_ constants defined in are unusual * in that they are negative values. The libconv code is all * built around the Word type, which is unsigned. Rather than * modify libconv for this one case, we simply handle * these constants differently that the usual approach, * and stay away from conv_invalid_val() and conv_map_ds(). */ switch (id) { case PS_NONE: return (MSG_ORIG(MSG_PS_NONE)); case PS_QUERY: return (MSG_ORIG(MSG_PS_QUERY)); case PS_MYID: return (MSG_ORIG(MSG_PS_MYID)); case PS_SOFT: return (MSG_ORIG(MSG_PS_SOFT)); case PS_HARD: return (MSG_ORIG(MSG_PS_HARD)); case PS_QUERY_TYPE: return (MSG_ORIG(MSG_PS_QUERY_TYPE)); } fmt = (fmt_flags & CONV_FMT_DECIMAL) ? MSG_ORIG(MSG_FMT_INT) : MSG_ORIG(MSG_FMT_HEXINT); (void) snprintf(inv_buf->buf, sizeof (inv_buf->buf), fmt, id); return (inv_buf->buf); } /* * Return a string describing the si_code field of * the siginfo_t struct. * * The meaning of si_code is dependent on both the target * machine (mach) as well as the signal (sig). */ const char * conv_cnote_si_code(Half mach, int sig, int si_code, Conv_fmt_flags_t fmt_flags, Conv_inv_buf_t *inv_buf) { /* Values of si_code for user generated signals */ static const Msg user_arr[6] = { MSG_SI_USER, MSG_SI_LWP, MSG_SI_QUEUE, MSG_SI_TIMER, MSG_SI_ASYNCIO, MSG_SI_MESGQ }; static const conv_ds_msg_t ds_msg_user_arr = { CONV_DS_MSG_INIT(0, user_arr) }; static const conv_ds_t *ds_user_arr[] = { CONV_DS_ADDR(ds_msg_user_arr), NULL }; /* * Architecture dependent system generated signals. All * versions of Solaris use the same set of these values. */ static const Msg trap_arr[6] = { MSG_SI_TRAP_BRKPT, MSG_SI_TRAP_TRACE, MSG_SI_TRAP_RWATCH, MSG_SI_TRAP_WWATCH, MSG_SI_TRAP_XWATCH, MSG_SI_TRAP_DTRACE }; static const conv_ds_msg_t ds_msg_trap_arr = { CONV_DS_MSG_INIT(1, trap_arr) }; static const conv_ds_t *ds_trap_arr[] = { CONV_DS_ADDR(ds_msg_trap_arr), NULL }; static const Msg cld_arr[6] = { MSG_SI_CLD_EXITED, MSG_SI_CLD_KILLED, MSG_SI_CLD_DUMPED, MSG_SI_CLD_TRAPPED, MSG_SI_CLD_STOPPED, MSG_SI_CLD_CONTINUED }; static const conv_ds_msg_t ds_msg_cld_arr = { CONV_DS_MSG_INIT(1, cld_arr) }; static const conv_ds_t *ds_cld_arr[] = { CONV_DS_ADDR(ds_msg_cld_arr), NULL }; static const Msg poll_arr[6] = { MSG_SI_POLL_IN, MSG_SI_POLL_OUT, MSG_SI_POLL_MSG, MSG_SI_POLL_ERR, MSG_SI_POLL_PRI, MSG_SI_POLL_HUP }; static const conv_ds_msg_t ds_msg_poll_arr = { CONV_DS_MSG_INIT(1, poll_arr) }; static const conv_ds_t *ds_poll_arr[] = { CONV_DS_ADDR(ds_msg_poll_arr), NULL }; /* * Architecture dependent system generated signals. * These items (ILL, EMT, FPE, SEGV, BUS) are platform * dependent. Some architectures have extra codes. * The same name may have a different integer value. * Multiple arrays are used when they differ, and one * array when all the architectures agree. */ /* ILL */ static const Msg ill_arr[8] = { MSG_SI_ILL_ILLOPC, MSG_SI_ILL_ILLOPN, MSG_SI_ILL_ILLADR, MSG_SI_ILL_ILLTRP, MSG_SI_ILL_PRVOPC, MSG_SI_ILL_PRVREG, MSG_SI_ILL_COPROC, MSG_SI_ILL_BADSTK }; static const conv_ds_msg_t ds_msg_ill_arr = { CONV_DS_MSG_INIT(1, ill_arr) }; static const conv_ds_t *ds_ill_arr[] = { CONV_DS_ADDR(ds_msg_ill_arr), NULL }; /* EMT */ static const Msg emt_arr_sparc[2] = { MSG_SI_EMT_TAGOVF, MSG_SI_EMT_CPCOVF }; static const conv_ds_msg_t ds_msg_emt_arr_sparc = { CONV_DS_MSG_INIT(1, emt_arr_sparc) }; static const conv_ds_t *ds_emt_arr_sparc[] = { CONV_DS_ADDR(ds_msg_emt_arr_sparc), NULL }; static const Msg emt_arr_x86[1] = { MSG_SI_EMT_CPCOVF }; static const conv_ds_msg_t ds_msg_emt_arr_x86 = { CONV_DS_MSG_INIT(1, emt_arr_x86) }; static const conv_ds_t *ds_emt_arr_x86[] = { CONV_DS_ADDR(ds_msg_emt_arr_x86), NULL }; /* FPE */ static const Msg fpe_arr_sparc[8] = { MSG_SI_FPE_INTDIV, MSG_SI_FPE_INTOVF, MSG_SI_FPE_FLTDIV, MSG_SI_FPE_FLTOVF, MSG_SI_FPE_FLTUND, MSG_SI_FPE_FLTRES, MSG_SI_FPE_FLTINV, MSG_SI_FPE_FLTSUB }; static const conv_ds_msg_t ds_msg_fpe_arr_sparc = { CONV_DS_MSG_INIT(1, fpe_arr_sparc) }; static const conv_ds_t *ds_fpe_arr_sparc[] = { CONV_DS_ADDR(ds_msg_fpe_arr_sparc), NULL }; static const Msg fpe_arr_x86[9] = { MSG_SI_FPE_INTDIV, MSG_SI_FPE_INTOVF, MSG_SI_FPE_FLTDIV, MSG_SI_FPE_FLTOVF, MSG_SI_FPE_FLTUND, MSG_SI_FPE_FLTRES, MSG_SI_FPE_FLTINV, MSG_SI_FPE_FLTSUB, MSG_SI_FPE_FLTDEN }; static const conv_ds_msg_t ds_msg_fpe_arr_x86 = { CONV_DS_MSG_INIT(1, fpe_arr_x86) }; static const conv_ds_t *ds_fpe_arr_x86[] = { CONV_DS_ADDR(ds_msg_fpe_arr_x86), NULL }; /* SEGV */ static const Msg segv_arr[2] = { MSG_SI_SEGV_MAPERR, MSG_SI_SEGV_ACCERR }; static const conv_ds_msg_t ds_msg_segv_arr = { CONV_DS_MSG_INIT(1, segv_arr) }; static const conv_ds_t *ds_segv_arr[] = { CONV_DS_ADDR(ds_msg_segv_arr), NULL }; /* BUS */ static const Msg bus_arr[3] = { MSG_SI_BUS_ADRALN, MSG_SI_BUS_ADRERR, MSG_SI_BUS_OBJERR }; static const conv_ds_msg_t ds_msg_bus_arr = { CONV_DS_MSG_INIT(1, bus_arr) }; static const conv_ds_t *ds_bus_arr[] = { CONV_DS_ADDR(ds_msg_bus_arr), NULL }; enum { ARCH_NONE, ARCH_X86, ARCH_SPARC } arch; /* Handle the si_code values that do not depend on the signal */ switch (si_code) { case SI_NOINFO: return (MSG_ORIG(MSG_SI_NOINFO)); case SI_DTRACE: return (MSG_ORIG(MSG_SI_DTRACE)); case SI_RCTL: return (MSG_ORIG(MSG_SI_RCTL)); default: /* User generated signal codes are <= 0 */ if (si_code <= 0) { int ndx = -si_code; /* * If no signal was delivered, and si_code is * 0, return "0" rather than "SI_USER". */ if ((si_code == 0) && (sig == 0)) return (MSG_ORIG(MSG_GBL_ZERO)); if (ndx >= ARRAY_NELTS(user_arr)) { const char *fmt; fmt = (fmt_flags & CONV_FMT_DECIMAL) ? MSG_ORIG(MSG_FMT_INT) : MSG_ORIG(MSG_FMT_HEXINT); (void) snprintf(inv_buf->buf, sizeof (inv_buf->buf), fmt, si_code); return (inv_buf->buf); } return (conv_map_ds(ELFOSABI_NONE, EM_NONE, ndx, ds_user_arr, fmt_flags, inv_buf)); } } /* * If we didn't return above, then this is a * system generated signal, and the meaning of si_code * depends on the signal that was delivered, and possibly * on the target architecture. */ switch (mach) { case EM_386: case EM_AMD64: arch = ARCH_X86; break; case EM_SPARC: case EM_SPARC32PLUS: case EM_SPARCV9: arch = ARCH_X86; break; default: arch = ARCH_NONE; break; } switch (sig) { case SIGTRAP: return (conv_map_ds(ELFOSABI_NONE, EM_NONE, si_code, ds_trap_arr, fmt_flags, inv_buf)); case SIGCLD: return (conv_map_ds(ELFOSABI_NONE, EM_NONE, si_code, ds_cld_arr, fmt_flags, inv_buf)); case SIGPOLL: return (conv_map_ds(ELFOSABI_NONE, EM_NONE, si_code, ds_poll_arr, fmt_flags, inv_buf)); case SIGILL: return (conv_map_ds(ELFOSABI_NONE, EM_NONE, si_code, ds_ill_arr, fmt_flags, inv_buf)); case SIGEMT: switch (arch) { case ARCH_SPARC: return (conv_map_ds(ELFOSABI_NONE, EM_NONE, si_code, ds_emt_arr_sparc, fmt_flags, inv_buf)); case ARCH_X86: return (conv_map_ds(ELFOSABI_NONE, EM_NONE, si_code, ds_emt_arr_x86, fmt_flags, inv_buf)); case ARCH_NONE: break; } break; case SIGFPE: switch (arch) { case ARCH_SPARC: return (conv_map_ds(ELFOSABI_NONE, EM_NONE, si_code, ds_fpe_arr_sparc, fmt_flags, inv_buf)); case ARCH_X86: return (conv_map_ds(ELFOSABI_NONE, EM_NONE, si_code, ds_fpe_arr_x86, fmt_flags, inv_buf)); case ARCH_NONE: break; } break; case SIGSEGV: return (conv_map_ds(ELFOSABI_NONE, EM_NONE, si_code, ds_segv_arr, fmt_flags, inv_buf)); case SIGBUS: return (conv_map_ds(ELFOSABI_NONE, EM_NONE, si_code, ds_bus_arr, fmt_flags, inv_buf)); } /* If not recognized, format as a number */ return (conv_invalid_val(inv_buf, si_code, fmt_flags)); } #define AUXAFFLGSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ MSG_AUXV_AF_SUN_SETUGID_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_AUXV_AF_SUN_HWCAPVERIFY_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_AUXV_AF_SUN_NOPLM_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ CONV_INV_BUFSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE /* * Ensure that Conv_cnote_auxv_af_buf_t is large enough: * * AUXAFFLGSZ is the real minimum size of the buffer required by * conv_cnote_auxv_af(). However, Conv_cnote_auxv_af_buf_t * uses CONV_CNOTE_AUXV_AF_BUFSIZE to set the buffer size. We do * things this way because the definition of AUXAFFLGSZ uses information * that is not available in the environment of other programs * that include the conv.h header file. */ #if (CONV_CNOTE_AUXV_AF_BUFSIZE != AUXAFFLGSZ) && !defined(__lint) #define REPORT_BUFSIZE AUXAFFLGSZ #include "report_bufsize.h" #error "CONV_CNOTE_AUXV_AF_BUFSIZE does not match AUXAFFLGSZ" #endif const char * conv_cnote_auxv_af(Word flags, Conv_fmt_flags_t fmt_flags, Conv_cnote_auxv_af_buf_t *cnote_auxv_af_buf) { static const Val_desc vda[] = { { AF_SUN_SETUGID, MSG_AUXV_AF_SUN_SETUGID }, { AF_SUN_HWCAPVERIFY, MSG_AUXV_AF_SUN_HWCAPVERIFY }, { AF_SUN_NOPLM, MSG_AUXV_AF_SUN_NOPLM }, { 0, 0 } }; static CONV_EXPN_FIELD_ARG conv_arg = { NULL, sizeof (cnote_auxv_af_buf->buf) }; if (flags == 0) return (MSG_ORIG(MSG_GBL_ZERO)); conv_arg.buf = cnote_auxv_af_buf->buf; conv_arg.oflags = conv_arg.rflags = flags; (void) conv_expn_field(&conv_arg, vda, fmt_flags); return ((const char *)cnote_auxv_af_buf->buf); } #define CCFLGSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ MSG_CC_CONTENT_STACK_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_CC_CONTENT_HEAP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_CC_CONTENT_SHFILE_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_CC_CONTENT_SHANON_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_CC_CONTENT_TEXT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_CC_CONTENT_DATA_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_CC_CONTENT_RODATA_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_CC_CONTENT_ANON_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_CC_CONTENT_SHM_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_CC_CONTENT_ISM_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_CC_CONTENT_DISM_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_CC_CONTENT_CTF_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_CC_CONTENT_SYMTAB_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_CC_CONTENT_DEBUG_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ CONV_INV_BUFSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE /* * Ensure that Conv_cnote_cc_content_buf_t is large enough: * * CCFLGSZ is the real minimum size of the buffer required by * conv_cnote_cc_content(). However, Conv_cnote_cc_content_buf_t * uses CONV_CNOTE_CC_CONTENT_BUFSIZE to set the buffer size. We do * things this way because the definition of CCFLGSZ uses information * that is not available in the environment of other programs * that include the conv.h header file. */ #if (CONV_CNOTE_CC_CONTENT_BUFSIZE != CCFLGSZ) && !defined(__lint) #define REPORT_BUFSIZE CCFLGSZ #include "report_bufsize.h" #error "CONV_CNOTE_CC_CONTENT_BUFSIZE does not match CCFLGSZ" #endif /* * This is required to work around tools ld bootstrapping issues where * CC_CONTENT_DEBUG is not present. When an illumos sysroot has this present it * will probably be safe to remove this. */ #ifndef CC_CONTENT_DEBUG #define CC_CONTENT_DEBUG 0x2000ULL #endif const char * conv_cnote_cc_content(Lword flags, Conv_fmt_flags_t fmt_flags, Conv_cnote_cc_content_buf_t *cnote_cc_content_buf) { /* * Note: core_content_t is a 64-bit integer value, but our * conv_expn_field() logic is all built around 32-bit * Word values. This will probably need changing someday, * but for now, we make do with the 32-bit engine. This works * because the number of bits actually assigned in * the core_content_t data type () bits within * 32-bits. * * The downside is that any bits set in the upper half of * the flags will be ignored. At the time of this writing, * that can only occur via core file corruption, which presumably * would be evident in other ways. */ static const Val_desc vda[] = { { (Word) CC_CONTENT_STACK, MSG_CC_CONTENT_STACK }, { (Word) CC_CONTENT_HEAP, MSG_CC_CONTENT_HEAP }, { (Word) CC_CONTENT_SHFILE, MSG_CC_CONTENT_SHFILE }, { (Word) CC_CONTENT_SHANON, MSG_CC_CONTENT_SHANON }, { (Word) CC_CONTENT_TEXT, MSG_CC_CONTENT_TEXT }, { (Word) CC_CONTENT_DATA, MSG_CC_CONTENT_DATA }, { (Word) CC_CONTENT_RODATA, MSG_CC_CONTENT_RODATA }, { (Word) CC_CONTENT_ANON, MSG_CC_CONTENT_ANON }, { (Word) CC_CONTENT_SHM, MSG_CC_CONTENT_SHM }, { (Word) CC_CONTENT_ISM, MSG_CC_CONTENT_ISM }, { (Word) CC_CONTENT_DISM, MSG_CC_CONTENT_DISM }, { (Word) CC_CONTENT_CTF, MSG_CC_CONTENT_CTF }, { (Word) CC_CONTENT_SYMTAB, MSG_CC_CONTENT_SYMTAB }, { (Word) CC_CONTENT_DEBUG, MSG_CC_CONTENT_DEBUG }, { 0, 0 } }; static CONV_EXPN_FIELD_ARG conv_arg = { NULL, sizeof (cnote_cc_content_buf->buf) }; if (flags == 0) return (MSG_ORIG(MSG_GBL_ZERO)); conv_arg.buf = cnote_cc_content_buf->buf; conv_arg.oflags = conv_arg.rflags = flags; (void) conv_expn_field(&conv_arg, vda, fmt_flags); return ((const char *)cnote_cc_content_buf->buf); } #define PRFLGSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ MSG_PR_FLAGS_STOPPED_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_ISTOP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_DSTOP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_STEP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_ASLEEP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_PCINVAL_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_ASLWP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_AGENT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_DETACH_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_DAEMON_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_IDLE_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_ISSYS_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_VFORKP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_ORPHAN_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_NOSIGCHLD_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_WAITPID_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_FORK_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_RLC_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_KLC_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_ASYNC_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_MSACCT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_BPTADJ_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_PTRACE_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_MSFORK_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ CONV_INV_BUFSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE /* * Ensure that Conv_cnote_pr_flags_buf_t is large enough: * * PRFLGSZ is the real minimum size of the buffer required by * conv_cnote_pr_flags(). However, Conv_cnote_pr_flags_buf_t * uses CONV_CNOTE_PR_FLAGS_BUFSIZE to set the buffer size. We do * things this way because the definition of PRFLGSZ uses information * that is not available in the environment of other programs * that include the conv.h header file. */ #if (CONV_CNOTE_PR_FLAGS_BUFSIZE != PRFLGSZ) && !defined(__lint) #define REPORT_BUFSIZE PRFLGSZ #include "report_bufsize.h" #error "CONV_CNOTE_PR_FLAGS_BUFSIZE does not match PRFLGSZ" #endif const char * conv_cnote_pr_flags(int flags, Conv_fmt_flags_t fmt_flags, Conv_cnote_pr_flags_buf_t *cnote_pr_flags_buf) { static const Val_desc vda[] = { { PR_STOPPED, MSG_PR_FLAGS_STOPPED }, { PR_ISTOP, MSG_PR_FLAGS_ISTOP }, { PR_DSTOP, MSG_PR_FLAGS_DSTOP }, { PR_STEP, MSG_PR_FLAGS_STEP }, { PR_ASLEEP, MSG_PR_FLAGS_ASLEEP }, { PR_PCINVAL, MSG_PR_FLAGS_PCINVAL }, { PR_ASLWP, MSG_PR_FLAGS_ASLWP }, { PR_AGENT, MSG_PR_FLAGS_AGENT }, { PR_DETACH, MSG_PR_FLAGS_DETACH }, { PR_DAEMON, MSG_PR_FLAGS_DAEMON }, { PR_IDLE, MSG_PR_FLAGS_IDLE }, { PR_ISSYS, MSG_PR_FLAGS_ISSYS }, { PR_VFORKP, MSG_PR_FLAGS_VFORKP }, { PR_ORPHAN, MSG_PR_FLAGS_ORPHAN }, { PR_NOSIGCHLD, MSG_PR_FLAGS_NOSIGCHLD }, { PR_WAITPID, MSG_PR_FLAGS_WAITPID }, { PR_FORK, MSG_PR_FLAGS_FORK }, { PR_RLC, MSG_PR_FLAGS_RLC }, { PR_KLC, MSG_PR_FLAGS_KLC }, { PR_ASYNC, MSG_PR_FLAGS_ASYNC }, { PR_MSACCT, MSG_PR_FLAGS_MSACCT }, { PR_BPTADJ, MSG_PR_FLAGS_BPTADJ }, { PR_PTRACE, MSG_PR_FLAGS_PTRACE }, { PR_MSFORK, MSG_PR_FLAGS_MSFORK }, { 0, 0 } }; static CONV_EXPN_FIELD_ARG conv_arg = { NULL, sizeof (cnote_pr_flags_buf->buf) }; if (flags == 0) return (MSG_ORIG(MSG_GBL_ZERO)); conv_arg.buf = cnote_pr_flags_buf->buf; conv_arg.oflags = conv_arg.rflags = flags; (void) conv_expn_field(&conv_arg, vda, fmt_flags); return ((const char *)cnote_pr_flags_buf->buf); } #define OLDPRFLGSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ MSG_PR_FLAGS_STOPPED_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_ISTOP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_DSTOP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_ASLEEP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_FORK_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_RLC_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_PTRACE_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_PCINVAL_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_ISSYS_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_STEP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_KLC_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_ASYNC_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_PCOMPAT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_MSACCT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_BPTADJ_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PR_FLAGS_ASLWP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ CONV_INV_BUFSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE /* * Ensure that Conv_cnote_old_pr_flags_buf_t is large enough: * * OLDPRFLGSZ is the real minimum size of the buffer required by * conv_cnote_old_pr_flags(). However, Conv_cnote_old_pr_flags_buf_t * uses CONV_CNOTE_OLD_PR_FLAGS_BUFSIZE to set the buffer size. We do * things this way because the definition of OLDPRFLGSZ uses information * that is not available in the environment of other programs * that include the conv.h header file. */ #if (CONV_CNOTE_OLD_PR_FLAGS_BUFSIZE != OLDPRFLGSZ) && !defined(__lint) #define REPORT_BUFSIZE OLDPRFLGSZ #include "report_bufsize.h" #error "CONV_CNOTE_OLD_PR_FLAGS_BUFSIZE does not match OLDPRFLGSZ" #endif const char * conv_cnote_old_pr_flags(int flags, Conv_fmt_flags_t fmt_flags, Conv_cnote_old_pr_flags_buf_t *cnote_old_pr_flags_buf) { /* * defines names for many of these flags * that are also defined in , but with different * values. To avoid confusion, we don't include , * and specify the values directly. */ static const Val_desc vda[] = { { 0x0001, MSG_PR_FLAGS_STOPPED }, { 0x0002, MSG_PR_FLAGS_ISTOP }, { 0x0004, MSG_PR_FLAGS_DSTOP }, { 0x0008, MSG_PR_FLAGS_ASLEEP }, { 0x0010, MSG_PR_FLAGS_FORK }, { 0x0020, MSG_PR_FLAGS_RLC }, { 0x0040, MSG_PR_FLAGS_PTRACE }, { 0x0080, MSG_PR_FLAGS_PCINVAL }, { 0x0100, MSG_PR_FLAGS_ISSYS }, { 0x0200, MSG_PR_FLAGS_STEP }, { 0x0400, MSG_PR_FLAGS_KLC }, { 0x0800, MSG_PR_FLAGS_ASYNC }, { 0x1000, MSG_PR_FLAGS_PCOMPAT }, { 0x2000, MSG_PR_FLAGS_MSACCT }, { 0x4000, MSG_PR_FLAGS_BPTADJ }, { 0x8000, MSG_PR_FLAGS_ASLWP }, { 0, 0 } }; static CONV_EXPN_FIELD_ARG conv_arg = { NULL, sizeof (cnote_old_pr_flags_buf->buf) }; if (flags == 0) return (MSG_ORIG(MSG_GBL_ZERO)); conv_arg.buf = cnote_old_pr_flags_buf->buf; conv_arg.oflags = conv_arg.rflags = flags; (void) conv_expn_field(&conv_arg, vda, fmt_flags); return ((const char *)cnote_old_pr_flags_buf->buf); } #define PROCFLGSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ MSG_PROC_FLAG_SSYS_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_PROC_FLAG_SMSACCT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ CONV_INV_BUFSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE /* * Ensure that Conv_cnote_proc_flag_buf_t is large enough: * * PROCFLGSZ is the real minimum size of the buffer required by * conv_cnote_proc_flag(). However, Conv_cnote_proc_flag_buf_t * uses CONV_CNOTE_PROC_FLAG_BUFSIZE to set the buffer size. We do * things this way because the definition of PROCFLGSZ uses information * that is not available in the environment of other programs * that include the conv.h header file. */ #if (CONV_CNOTE_PROC_FLAG_BUFSIZE != PROCFLGSZ) && !defined(__lint) #define REPORT_BUFSIZE PROCFLGSZ #include "report_bufsize.h" #error "CONV_CNOTE_PROC_FLAG_BUFSIZE does not match PROCFLGSZ" #endif const char * conv_cnote_proc_flag(int flags, Conv_fmt_flags_t fmt_flags, Conv_cnote_proc_flag_buf_t *cnote_proc_flag_buf) { /* * Most of the proc flags are implementation dependant, and can * change between releases. As such, we do not attempt to translate * them to symbolic form, but simply report them in hex form. * However, SMSACCT and SSYS are special, and their bit values * are maintained between releases so they can be used in the * psinfo_t.p_flag field. We therefore translate these items. * * See * * Note: We don't want to include in this file, because * it redefines 'struct list', which we have defined in sgs.h. As * SMSACCT and SSYS are stable public values, we simply use * their numeric value. */ static const Val_desc vda[] = { { 0x00000001, MSG_PROC_FLAG_SSYS }, { 0x02000000, MSG_PROC_FLAG_SMSACCT }, { 0, 0 } }; static CONV_EXPN_FIELD_ARG conv_arg = { NULL, sizeof (cnote_proc_flag_buf->buf) }; if (flags == 0) return (MSG_ORIG(MSG_GBL_ZERO)); conv_arg.buf = cnote_proc_flag_buf->buf; conv_arg.oflags = conv_arg.rflags = flags; (void) conv_expn_field(&conv_arg, vda, fmt_flags); return ((const char *)cnote_proc_flag_buf->buf); } #define SAFLGSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ MSG_SA_ONSTACK_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SA_RESETHAND_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SA_RESTART_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SA_SIGINFO_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SA_NODEFER_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SA_NOCLDWAIT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SA_NOCLDSTOP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ CONV_INV_BUFSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE /* * Ensure that Conv_cnote_sa_flags_buf_t is large enough: * * SAFLGSZ is the real minimum size of the buffer required by * conv_cnote_sa_flags(). However, Conv_cnote_sa_flags_buf_t * uses CONV_CNOTE_SA_FLAGS_BUFSIZE to set the buffer size. We do * things this way because the definition of SAFLGSZ uses information * that is not available in the environment of other programs * that include the conv.h header file. */ #if (CONV_CNOTE_SA_FLAGS_BUFSIZE != SAFLGSZ) && !defined(__lint) #define REPORT_BUFSIZE SAFLGSZ #include "report_bufsize.h" #error "CONV_CNOTE_SA_FLAGS_BUFSIZE does not match SAFLGSZ" #endif const char * conv_cnote_sa_flags(int flags, Conv_fmt_flags_t fmt_flags, Conv_cnote_sa_flags_buf_t *cnote_sa_flags_buf) { static const Val_desc vda[] = { { SA_ONSTACK, MSG_SA_ONSTACK }, { SA_RESETHAND, MSG_SA_RESETHAND }, { SA_RESTART, MSG_SA_RESTART }, { SA_SIGINFO, MSG_SA_SIGINFO }, { SA_NODEFER, MSG_SA_NODEFER }, { SA_NOCLDWAIT, MSG_SA_NOCLDWAIT }, { SA_NOCLDSTOP, MSG_SA_NOCLDSTOP }, { 0, 0 } }; static CONV_EXPN_FIELD_ARG conv_arg = { NULL, sizeof (cnote_sa_flags_buf->buf) }; if (flags == 0) return (MSG_ORIG(MSG_GBL_ZERO)); conv_arg.buf = cnote_sa_flags_buf->buf; conv_arg.oflags = conv_arg.rflags = flags; (void) conv_expn_field(&conv_arg, vda, fmt_flags); return ((const char *)cnote_sa_flags_buf->buf); } #define SSFLGSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ MSG_SS_ONSTACK_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SS_DISABLE_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ CONV_INV_BUFSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE /* * Ensure that Conv_cnote_ss_flags_buf_t is large enough: * * SSFLGSZ is the real minimum size of the buffer required by * conv_cnote_ss_flags(). However, Conv_cnote_ss_flags_buf_t * uses CONV_CNOTE_SS_FLAGS_BUFSIZE to set the buffer size. We do * things this way because the definition of SSFLGSZ uses information * that is not available in the environment of other programs * that include the conv.h header file. */ #if (CONV_CNOTE_SS_FLAGS_BUFSIZE != SSFLGSZ) && !defined(__lint) #define REPORT_BUFSIZE SSFLGSZ #include "report_bufsize.h" #error "CONV_CNOTE_SS_FLAGS_BUFSIZE does not match SSFLGSZ" #endif const char * conv_cnote_ss_flags(int flags, Conv_fmt_flags_t fmt_flags, Conv_cnote_ss_flags_buf_t *cnote_ss_flags_buf) { static const Val_desc vda[] = { { SS_ONSTACK, MSG_SS_ONSTACK }, { SS_DISABLE, MSG_SS_DISABLE }, { 0, 0 } }; static CONV_EXPN_FIELD_ARG conv_arg = { NULL, sizeof (cnote_ss_flags_buf->buf) }; if (flags == 0) return (MSG_ORIG(MSG_GBL_ZERO)); conv_arg.buf = cnote_ss_flags_buf->buf; conv_arg.oflags = conv_arg.rflags = flags; (void) conv_expn_field(&conv_arg, vda, fmt_flags); return ((const char *)cnote_ss_flags_buf->buf); } /* * Solaris has a variety of types that use bitmasks to represent * sets of things like signals (sigset_t), faults (fltset_t), and * system calls (sysset_t). These types use arrays of unsigned 32-bit * integers to represent the set. These are public types that * cannot be changed, so they are generously oversized to allow * for future growth. Hence, there are usually unused bits. * * conv_bitmaskset() generalizes the process of displaying these items. */ typedef struct { const Val_desc *vdp; /* NULL, or bitmask description */ uint32_t unused_bits; /* Mask of undefined bits */ } conv_bitmaskset_desc_t; /* * entry: * n_mask - # of 32-bit masks that make up this bitmask type. * maskarr - Array of n_mask 32-bit mask values * bitmask_descarr - Array of n_mask bitmask_desc_t descriptors, * one for each mask, specifying the bitmask names, and * a mask of the bits that are not defined by the system. * fmt_flags - CONV_FMT_* values, used to specify formatting details. * conv_buf - Buffer to receive formatted results * conv_buf_size - Size of conv_buf, including room for NULL termination */ static const char * conv_bitmaskset(uint32_t *maskarr, int n_mask, const conv_bitmaskset_desc_t *bitmask_descarr, Conv_fmt_flags_t fmt_flags, char *conv_buf, size_t conv_buf_size) { CONV_EXPN_FIELD_ARG conv_arg; int i, need_sep = 0; /* If every bit of every mask is 0, return 0 as the result */ for (i = 0; i < n_mask; i++) if (maskarr[i] != 0) break; if (i == n_mask) return (MSG_ORIG(MSG_GBL_ZERO)); /* * At least one bit is non-zero. Move through the masks * and process each one. */ (void) memset(&conv_arg, 0, sizeof (conv_arg)); conv_arg.bufsize = conv_buf_size; conv_arg.buf = conv_buf; if ((fmt_flags & CONV_FMT_NOBKT) == 0) { *conv_arg.buf++ = '['; *conv_arg.buf++ = ' '; conv_arg.bufsize -= 2; } /* * conv_expn_field() orders its output with the most significant * bits on the left. To preserve this ordering across the * subwords or our "virtual bitmask", we need to process * the sub-words in the same order, from most significant down * to least significant. Since unassigned bits tend to be at * the MSB end of the word, we process the unused bits first. * * One implication of this is that the caller should not use * the unassigned bits for "abandoned" bits in the middle of * a used range, but should instead define the string for * that bit as being the string representation of that decimal * value (i.e. "65"). That will cause the bit to be properly * sorted among the named bits to either side of it. */ for (i = 0; i < n_mask; i++) { size_t n; uint32_t mask, unused_bits; const int bits_per_mask = sizeof (mask) * 8; mask = maskarr[i]; unused_bits = mask & bitmask_descarr[i].unused_bits; mask &= ~unused_bits; if (mask != 0) { conv_arg.oflags = conv_arg.rflags = mask; if (need_sep) { *conv_arg.buf++ = ' '; conv_arg.bufsize--; } need_sep = 1; (void) conv_expn_field(&conv_arg, bitmask_descarr[i].vdp, fmt_flags | CONV_FMT_NOBKT); n = strlen(conv_arg.buf); conv_arg.bufsize -= n; conv_arg.buf += n; } if (unused_bits != 0) { uint32_t bit = 0x00000001; int j; for (j = 1; j <= bits_per_mask; j++, bit *= 2) { if ((unused_bits & bit) == 0) continue; if (need_sep) { *conv_arg.buf++ = ' '; conv_arg.bufsize--; } need_sep = 1; n = snprintf(conv_arg.buf, conv_arg.bufsize, MSG_ORIG(MSG_FMT_WORD), EC_WORD(j + (bits_per_mask * i))); conv_arg.buf += n; conv_arg.bufsize -= n; } } } if ((fmt_flags & CONV_FMT_NOBKT) == 0) { *conv_arg.buf++ = ' '; *conv_arg.buf++ = ']'; } *conv_arg.buf = '\0'; return ((const char *) conv_buf); } #define SIGSET_FLAGSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ /* sigset_t [0] - Signals [1 - 32] */ \ MSG_SIGHUP_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGINT_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGQUIT_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGILL_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGTRAP_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGABRT_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGEMT_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGFPE_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGKILL_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGBUS_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGSEGV_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGSYS_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGPIPE_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGALRM_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGTERM_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGUSR1_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGUSR2_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGCHLD_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGPWR_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGWINCH_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGURG_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGPOLL_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGSTOP_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGTSTP_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGCONT_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGTTIN_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGTTOU_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGVTALRM_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGPROF_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGXCPU_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGXFSZ_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGWAITING_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ \ /* \ * sigset_t [1] - Signals [33 - 64] \ * There are 24 unused bits, each of which needs two \ * characters plus a separator. \ */ \ MSG_SIGLWP_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGFREEZE_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGTHAW_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGCANCEL_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGLOST_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGXRES_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGJVM1_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_SIGJVM2_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ (24 * (2 + CONV_EXPN_FIELD_DEF_SEP_SIZE)) + \ \ /* \ * sigset_t [2] - Signals [65 - 96] \ * There are 32 unused bits, each of which needs two \ * characters plus a separator. \ */ \ (32 * (2 + CONV_EXPN_FIELD_DEF_SEP_SIZE)) + \ \ /* \ * sigset_t [2] - Signals [97 - 128] \ * There are 32 unused bits. Three of these need two \ * characters, and 29 need 3. Each one needs a separator. \ */ \ (3 * (2 + CONV_EXPN_FIELD_DEF_SEP_SIZE)) + \ (29 * (3 + CONV_EXPN_FIELD_DEF_SEP_SIZE)) + \ \ CONV_INV_BUFSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE /* * Ensure that Conv_cnote_sigset_buf_t is large enough: * * SIGSET_FLAGSZ is the real minimum size of the buffer required by * conv_cnote_sigset(). However, Conv_cnote_sigset_buf_t * uses CONV_CNOTE_SIGSET_BUFSIZE to set the buffer size. We do * things this way because the definition of SIGSET_FLAGSZ uses information * that is not available in the environment of other programs * that include the conv.h header file. */ #if (CONV_CNOTE_SIGSET_BUFSIZE != SIGSET_FLAGSZ) && !defined(__lint) #define REPORT_BUFSIZE SIGSET_FLAGSZ #include "report_bufsize.h" #error "CONV_CNOTE_SIGSET_BUFSIZE does not match SIGSET_FLAGSZ" #endif const char * conv_cnote_sigset(uint32_t *maskarr, int n_mask, Conv_fmt_flags_t fmt_flags, Conv_cnote_sigset_buf_t *cnote_sigset_buf) { #define N_MASK 4 static const Val_desc vda0[] = { { 0x00000001, MSG_SIGHUP_ALT }, { 0x00000002, MSG_SIGINT_ALT }, { 0x00000004, MSG_SIGQUIT_ALT }, { 0x00000008, MSG_SIGILL_ALT }, { 0x00000010, MSG_SIGTRAP_ALT }, { 0x00000020, MSG_SIGABRT_ALT }, { 0x00000040, MSG_SIGEMT_ALT }, { 0x00000080, MSG_SIGFPE_ALT }, { 0x00000100, MSG_SIGKILL_ALT }, { 0x00000200, MSG_SIGBUS_ALT }, { 0x00000400, MSG_SIGSEGV_ALT }, { 0x00000800, MSG_SIGSYS_ALT }, { 0x00001000, MSG_SIGPIPE_ALT }, { 0x00002000, MSG_SIGALRM_ALT }, { 0x00004000, MSG_SIGTERM_ALT }, { 0x00008000, MSG_SIGUSR1_ALT }, { 0x00010000, MSG_SIGUSR2_ALT }, { 0x00020000, MSG_SIGCHLD_ALT }, { 0x00040000, MSG_SIGPWR_ALT }, { 0x00080000, MSG_SIGWINCH_ALT }, { 0x00100000, MSG_SIGURG_ALT }, { 0x00200000, MSG_SIGPOLL_ALT }, { 0x00400000, MSG_SIGSTOP_ALT }, { 0x00800000, MSG_SIGTSTP_ALT }, { 0x01000000, MSG_SIGCONT_ALT }, { 0x02000000, MSG_SIGTTIN_ALT }, { 0x04000000, MSG_SIGTTOU_ALT }, { 0x08000000, MSG_SIGVTALRM_ALT }, { 0x10000000, MSG_SIGPROF_ALT }, { 0x20000000, MSG_SIGXCPU_ALT }, { 0x40000000, MSG_SIGXFSZ_ALT }, { 0x80000000, MSG_SIGWAITING_ALT }, { 0, 0 } }; static const Val_desc vda1[] = { { 0x00000001, MSG_SIGLWP_ALT }, { 0x00000002, MSG_SIGFREEZE_ALT }, { 0x00000004, MSG_SIGTHAW_ALT }, { 0x00000008, MSG_SIGCANCEL_ALT }, { 0x00000010, MSG_SIGLOST_ALT }, { 0x00000020, MSG_SIGXRES_ALT }, { 0x00000040, MSG_SIGJVM1_ALT }, { 0x00000080, MSG_SIGJVM2_ALT }, { 0, 0 } }; static const conv_bitmaskset_desc_t bitmask_desc[N_MASK] = { { vda0, 0 }, { vda1, 0xffffff00 }, { NULL, 0xffffffff }, { NULL, 0xffffffff } }; if (n_mask > N_MASK) n_mask = N_MASK; return (conv_bitmaskset(maskarr, n_mask, bitmask_desc, fmt_flags, cnote_sigset_buf->buf, CONV_CNOTE_SIGSET_BUFSIZE)); #undef N_MASK } #define FLTSET_FLAGSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ /* \ * fltset_t[0] - Faults [1 - 32] \ * There are 19 unused bits, each of which needs two \ * characters plus a separator. \ */ \ MSG_FLTILL_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_FLTPRIV_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_FLTBPT_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_FLTTRACE_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_FLTACCESS_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_FLTBOUNDS_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_FLTIOVF_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_FLTIZDIV_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_FLTFPE_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_FLTSTACK_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_FLTPAGE_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_FLTWATCH_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_FLTCPCOVF_ALT_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ (19 * (2 + CONV_EXPN_FIELD_DEF_SEP_SIZE)) + \ /* \ * fltset_t [1] - Faults [33 - 64] \ * There are 32 unused bits, each of which needs two \ * characters plus a separator. \ */ \ (32 * (2 + CONV_EXPN_FIELD_DEF_SEP_SIZE)) + \ /* \ * fltset_t [2] - Faults [65 - 96] \ * There are 32 unused bits, each of which needs two \ * characters plus a separator. \ */ \ (32 * (2 + CONV_EXPN_FIELD_DEF_SEP_SIZE)) + \ /* \ * fltset_t [3] - Faults [97 - 128] \ * There are 32 unused bits. Three of these need two \ * characters, and 29 need 3. Each one needs a separator. \ */ \ (3 * (2 + CONV_EXPN_FIELD_DEF_SEP_SIZE)) + \ (29 * (3 + CONV_EXPN_FIELD_DEF_SEP_SIZE)) + \ \ CONV_INV_BUFSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE /* * Ensure that Conv_cnote_fltset_buf_t is large enough: * * FLTSET_FLAGSZ is the real minimum size of the buffer required by * conv_cnote_fltset(). However, Conv_cnote_fltset_buf_t * uses CONV_CNOTE_FLTSET_BUFSIZE to set the buffer size. We do * things this way because the definition of FLTSET_FLAGSZ uses information * that is not available in the environment of other programs * that include the conv.h header file. */ #if (CONV_CNOTE_FLTSET_BUFSIZE != FLTSET_FLAGSZ) && !defined(__lint) #define REPORT_BUFSIZE FLTSET_FLAGSZ #include "report_bufsize.h" #error "CONV_CNOTE_FLTSET_BUFSIZE does not match FLTSET_FLAGSZ" #endif const char * conv_cnote_fltset(uint32_t *maskarr, int n_mask, Conv_fmt_flags_t fmt_flags, Conv_cnote_fltset_buf_t *cnote_fltset_buf) { #define N_MASK 4 static const Val_desc vda0[] = { { 0x00000001, MSG_FLTILL_ALT }, { 0x00000002, MSG_FLTPRIV_ALT }, { 0x00000004, MSG_FLTBPT_ALT }, { 0x00000008, MSG_FLTTRACE_ALT }, { 0x00000010, MSG_FLTACCESS_ALT }, { 0x00000020, MSG_FLTBOUNDS_ALT }, { 0x00000040, MSG_FLTIOVF_ALT }, { 0x00000080, MSG_FLTIZDIV_ALT }, { 0x00000100, MSG_FLTFPE_ALT }, { 0x00000200, MSG_FLTSTACK_ALT }, { 0x00000400, MSG_FLTPAGE_ALT }, { 0x00000800, MSG_FLTWATCH_ALT }, { 0x00001000, MSG_FLTCPCOVF_ALT }, { 0, 0 } }; static const conv_bitmaskset_desc_t bitmask_desc[N_MASK] = { { vda0, 0xffffe000 }, { NULL, 0xffffffff }, { NULL, 0xffffffff }, { NULL, 0xffffffff } }; if (n_mask > N_MASK) n_mask = N_MASK; return (conv_bitmaskset(maskarr, n_mask, bitmask_desc, fmt_flags, cnote_fltset_buf->buf, CONV_CNOTE_FLTSET_BUFSIZE)); #undef N_MASK } #define SYSSET_FLAGSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ (512 * CONV_EXPN_FIELD_DEF_SEP_SIZE) + \ \ /* sysset_t[0] - System Calls [1 - 32] */ \ MSG_SYS_EXIT_ALT_SIZE /* 1 */ + \ MSG_SYS_2_SIZE /* 2 (unused) */ + \ MSG_SYS_READ_ALT_SIZE /* 3 */ + \ MSG_SYS_WRITE_ALT_SIZE /* 4 */ + \ MSG_SYS_OPEN_ALT_SIZE /* 5 */ + \ MSG_SYS_CLOSE_ALT_SIZE /* 6 */ + \ MSG_SYS_7_SIZE /* 7 (unused) */ + \ MSG_SYS_8_SIZE /* 8 (unused) */ + \ MSG_SYS_LINK_ALT_SIZE /* 9 */ + \ MSG_SYS_UNLINK_ALT_SIZE /* 10 */ + \ MSG_SYS_11_SIZE /* 11 (unused) */ + \ MSG_SYS_CHDIR_ALT_SIZE /* 12 */ + \ MSG_SYS_TIME_ALT_SIZE /* 13 */ + \ MSG_SYS_MKNOD_ALT_SIZE /* 14 */ + \ MSG_SYS_CHMOD_ALT_SIZE /* 15 */ + \ MSG_SYS_CHOWN_ALT_SIZE /* 16 */ + \ MSG_SYS_BRK_ALT_SIZE /* 17 */ + \ MSG_SYS_STAT_ALT_SIZE /* 18 */ + \ MSG_SYS_LSEEK_ALT_SIZE /* 19 */ + \ MSG_SYS_GETPID_ALT_SIZE /* 20 */ + \ MSG_SYS_MOUNT_ALT_SIZE /* 21 */ + \ MSG_SYS_22_SIZE /* 22 (unused) */ + \ MSG_SYS_SETUID_ALT_SIZE /* 23 */ + \ MSG_SYS_GETUID_ALT_SIZE /* 24 */ + \ MSG_SYS_STIME_ALT_SIZE /* 25 */ + \ MSG_SYS_PCSAMPLE_ALT_SIZE /* 26 */ + \ MSG_SYS_ALARM_ALT_SIZE /* 27 */ + \ MSG_SYS_FSTAT_ALT_SIZE /* 28 */ + \ MSG_SYS_PAUSE_ALT_SIZE /* 29 */ + \ MSG_SYS_30_SIZE /* 30 (unused) */ + \ MSG_SYS_STTY_ALT_SIZE /* 31 */ + \ MSG_SYS_GTTY_ALT_SIZE /* 32 */ + \ \ /* sysset_t[1] - System Calls [33 - 64] */ \ MSG_SYS_ACCESS_ALT_SIZE /* 33 */ + \ MSG_SYS_NICE_ALT_SIZE /* 34 */ + \ MSG_SYS_STATFS_ALT_SIZE /* 35 */ + \ MSG_SYS_SYNC_ALT_SIZE /* 36 */ + \ MSG_SYS_KILL_ALT_SIZE /* 37 */ + \ MSG_SYS_FSTATFS_ALT_SIZE /* 38 */ + \ MSG_SYS_PGRPSYS_ALT_SIZE /* 39 */ + \ MSG_SYS_UUCOPYSTR_ALT_SIZE /* 40 */ + \ MSG_SYS_41_SIZE /* 41 (unused) */ + \ MSG_SYS_PIPE_ALT_SIZE /* 42 */ + \ MSG_SYS_TIMES_ALT_SIZE /* 43 */ + \ MSG_SYS_PROFIL_ALT_SIZE /* 44 */ + \ MSG_SYS_FACCESSAT_ALT_SIZE /* 45 */ + \ MSG_SYS_SETGID_ALT_SIZE /* 46 */ + \ MSG_SYS_GETGID_ALT_SIZE /* 47 */ + \ MSG_SYS_48_SIZE /* 48 (unused) */ + \ MSG_SYS_MSGSYS_ALT_SIZE /* 49 */ + \ MSG_SYS_SYSI86_ALT_SIZE /* 50 */ + \ MSG_SYS_ACCT_ALT_SIZE /* 51 */ + \ MSG_SYS_SHMSYS_ALT_SIZE /* 52 */ + \ MSG_SYS_SEMSYS_ALT_SIZE /* 53 */ + \ MSG_SYS_IOCTL_ALT_SIZE /* 54 */ + \ MSG_SYS_UADMIN_ALT_SIZE /* 55 */ + \ MSG_SYS_FCHOWNAT_ALT_SIZE /* 56 */ + \ MSG_SYS_UTSSYS_ALT_SIZE /* 57 */ + \ MSG_SYS_FDSYNC_ALT_SIZE /* 58 */ + \ MSG_SYS_EXECVE_ALT_SIZE /* 59 */ + \ MSG_SYS_UMASK_ALT_SIZE /* 60 */ + \ MSG_SYS_CHROOT_ALT_SIZE /* 61 */ + \ MSG_SYS_FCNTL_ALT_SIZE /* 62 */ + \ MSG_SYS_ULIMIT_ALT_SIZE /* 63 */ + \ MSG_SYS_RENAMEAT_ALT_SIZE /* 64 */ + \ \ /* sysset_t[2] - System Calls [65 - 96] */ \ MSG_SYS_UNLINKAT_ALT_SIZE /* 65 */ + \ MSG_SYS_FSTATAT_ALT_SIZE /* 66 */ + \ MSG_SYS_FSTATAT64_ALT_SIZE /* 67 */ + \ MSG_SYS_OPENAT_ALT_SIZE /* 68 */ + \ MSG_SYS_OPENAT64_ALT_SIZE /* 69 */ + \ MSG_SYS_TASKSYS_ALT_SIZE /* 70 */ + \ MSG_SYS_ACCTCTL_ALT_SIZE /* 71 */ + \ MSG_SYS_EXACCTSYS_ALT_SIZE /* 72 */ + \ MSG_SYS_GETPAGESIZES_ALT_SIZE /* 73 */ + \ MSG_SYS_RCTLSYS_ALT_SIZE /* 74 */ + \ MSG_SYS_SIDSYS_ALT_SIZE /* 75 */ + \ MSG_SYS_76_SIZE /* 76 (unused) */ + \ MSG_SYS_LWP_PARK_ALT_SIZE /* 77 */ + \ MSG_SYS_SENDFILEV_ALT_SIZE /* 78 */ + \ MSG_SYS_RMDIR_ALT_SIZE /* 79 */ + \ MSG_SYS_MKDIR_ALT_SIZE /* 80 */ + \ MSG_SYS_GETDENTS_ALT_SIZE /* 81 */ + \ MSG_SYS_PRIVSYS_ALT_SIZE /* 82 */ + \ MSG_SYS_UCREDSYS_ALT_SIZE /* 83 */ + \ MSG_SYS_SYSFS_ALT_SIZE /* 84 */ + \ MSG_SYS_GETMSG_ALT_SIZE /* 85 */ + \ MSG_SYS_PUTMSG_ALT_SIZE /* 86 */ + \ MSG_SYS_87_SIZE /* 87 (unused) */ + \ MSG_SYS_LSTAT_ALT_SIZE /* 88 */ + \ MSG_SYS_SYMLINK_ALT_SIZE /* 89 */ + \ MSG_SYS_READLINK_ALT_SIZE /* 90 */ + \ MSG_SYS_SETGROUPS_ALT_SIZE /* 91 */ + \ MSG_SYS_GETGROUPS_ALT_SIZE /* 92 */ + \ MSG_SYS_FCHMOD_ALT_SIZE /* 93 */ + \ MSG_SYS_FCHOWN_ALT_SIZE /* 94 */ + \ MSG_SYS_SIGPROCMASK_ALT_SIZE /* 95 */ + \ MSG_SYS_SIGSUSPEND_ALT_SIZE /* 96 */ + \ \ /* sysset_t[3] - System Calls [97 - 128] */ \ MSG_SYS_SIGALTSTACK_ALT_SIZE /* 97 */ + \ MSG_SYS_SIGACTION_ALT_SIZE /* 98 */ + \ MSG_SYS_SIGPENDING_ALT_SIZE /* 99 */ + \ MSG_SYS_CONTEXT_ALT_SIZE /* 100 */ + \ MSG_SYS_101_SIZE /* 101 (unused) */ + \ MSG_SYS_102_SIZE /* 102 (unused) */ + \ MSG_SYS_STATVFS_ALT_SIZE /* 103 */ + \ MSG_SYS_FSTATVFS_ALT_SIZE /* 104 */ + \ MSG_SYS_GETLOADAVG_ALT_SIZE /* 105 */ + \ MSG_SYS_NFSSYS_ALT_SIZE /* 106 */ + \ MSG_SYS_WAITID_ALT_SIZE /* 107 */ + \ MSG_SYS_SIGSENDSYS_ALT_SIZE /* 108 */ + \ MSG_SYS_HRTSYS_ALT_SIZE /* 109 */ + \ MSG_SYS_UTIMESYS_ALT_SIZE /* 110 */ + \ MSG_SYS_SIGRESEND_ALT_SIZE /* 111 */ + \ MSG_SYS_PRIOCNTLSYS_ALT_SIZE /* 112 */ + \ MSG_SYS_PATHCONF_ALT_SIZE /* 113 */ + \ MSG_SYS_MINCORE_ALT_SIZE /* 114 */ + \ MSG_SYS_MMAP_ALT_SIZE /* 115 */ + \ MSG_SYS_MPROTECT_ALT_SIZE /* 116 */ + \ MSG_SYS_MUNMAP_ALT_SIZE /* 117 */ + \ MSG_SYS_FPATHCONF_ALT_SIZE /* 118 */ + \ MSG_SYS_VFORK_ALT_SIZE /* 119 */ + \ MSG_SYS_FCHDIR_ALT_SIZE /* 120 */ + \ MSG_SYS_READV_ALT_SIZE /* 121 */ + \ MSG_SYS_WRITEV_ALT_SIZE /* 122 */ + \ MSG_SYS_PREADV_SIZE /* 123 */ + \ MSG_SYS_PWRITEV_SIZE /* 124 */ + \ MSG_SYS_UPANIC_SIZE /* 125 */ + \ MSG_SYS_GETRANDOM_SIZE /* 126 */ + \ MSG_SYS_MMAPOBJ_ALT_SIZE /* 127 */ + \ MSG_SYS_SETRLIMIT_ALT_SIZE /* 128 */ + \ \ /* sysset_t[4] - System Calls [129 - 160] */ \ MSG_SYS_GETRLIMIT_ALT_SIZE /* 129 */ + \ MSG_SYS_LCHOWN_ALT_SIZE /* 130 */ + \ MSG_SYS_MEMCNTL_ALT_SIZE /* 131 */ + \ MSG_SYS_GETPMSG_ALT_SIZE /* 132 */ + \ MSG_SYS_PUTPMSG_ALT_SIZE /* 133 */ + \ MSG_SYS_RENAME_ALT_SIZE /* 134 */ + \ MSG_SYS_UNAME_ALT_SIZE /* 135 */ + \ MSG_SYS_SETEGID_ALT_SIZE /* 136 */ + \ MSG_SYS_SYSCONFIG_ALT_SIZE /* 137 */ + \ MSG_SYS_ADJTIME_ALT_SIZE /* 138 */ + \ MSG_SYS_SYSTEMINFO_ALT_SIZE /* 139 */ + \ MSG_SYS_SHAREFS_ALT_SIZE /* 140 */ + \ MSG_SYS_SETEUID_ALT_SIZE /* 141 */ + \ MSG_SYS_FORKSYS_ALT_SIZE /* 142 */ + \ MSG_SYS_143_SIZE /* 143 (unused) */ + \ MSG_SYS_SIGTIMEDWAIT_ALT_SIZE /* 144 */ + \ MSG_SYS_LWP_INFO_ALT_SIZE /* 145 */ + \ MSG_SYS_YIELD_ALT_SIZE /* 146 */ + \ MSG_SYS_147_SIZE /* 147 (unused) */ + \ MSG_SYS_LWP_SEMA_POST_ALT_SIZE /* 148 */ + \ MSG_SYS_LWP_SEMA_TRYWAIT_ALT_SIZE /* 149 */ + \ MSG_SYS_LWP_DETACH_ALT_SIZE /* 150 */ + \ MSG_SYS_CORECTL_ALT_SIZE /* 151 */ + \ MSG_SYS_MODCTL_ALT_SIZE /* 152 */ + \ MSG_SYS_FCHROOT_ALT_SIZE /* 153 */ + \ MSG_SYS_154_SIZE /* 154 (unused) */ + \ MSG_SYS_VHANGUP_ALT_SIZE /* 155 */ + \ MSG_SYS_GETTIMEOFDAY_ALT_SIZE /* 156 */ + \ MSG_SYS_GETITIMER_ALT_SIZE /* 157 */ + \ MSG_SYS_SETITIMER_ALT_SIZE /* 158 */ + \ MSG_SYS_LWP_CREATE_ALT_SIZE /* 159 */ + \ MSG_SYS_LWP_EXIT_ALT_SIZE /* 160 */ + \ \ /* sysset_t[5] - System Calls [161 - 192] */ \ MSG_SYS_LWP_SUSPEND_ALT_SIZE /* 161 */ + \ MSG_SYS_LWP_CONTINUE_ALT_SIZE /* 162 */ + \ MSG_SYS_LWP_KILL_ALT_SIZE /* 163 */ + \ MSG_SYS_LWP_SELF_ALT_SIZE /* 164 */ + \ MSG_SYS_LWP_SIGMASK_ALT_SIZE /* 165 */ + \ MSG_SYS_LWP_PRIVATE_ALT_SIZE /* 166 */ + \ MSG_SYS_LWP_WAIT_ALT_SIZE /* 167 */ + \ MSG_SYS_LWP_MUTEX_WAKEUP_ALT_SIZE /* 168 */ + \ MSG_SYS_169_SIZE /* 169 (unused) */ + \ MSG_SYS_LWP_COND_WAIT_ALT_SIZE /* 170 */ + \ MSG_SYS_LWP_COND_SIGNAL_ALT_SIZE /* 171 */ + \ MSG_SYS_LWP_COND_BROADCAST_ALT_SIZE /* 172 */ + \ MSG_SYS_PREAD_ALT_SIZE /* 173 */ + \ MSG_SYS_PWRITE_ALT_SIZE /* 174 */ + \ MSG_SYS_LLSEEK_ALT_SIZE /* 175 */ + \ MSG_SYS_INST_SYNC_ALT_SIZE /* 176 */ + \ MSG_SYS_BRAND_ALT_SIZE /* 177 */ + \ MSG_SYS_KAIO_ALT_SIZE /* 178 */ + \ MSG_SYS_CPC_ALT_SIZE /* 179 */ + \ MSG_SYS_LGRPSYS_ALT_SIZE /* 180 */ + \ MSG_SYS_RUSAGESYS_ALT_SIZE /* 181 */ + \ MSG_SYS_PORT_ALT_SIZE /* 182 */ + \ MSG_SYS_POLLSYS_ALT_SIZE /* 183 */ + \ MSG_SYS_LABELSYS_ALT_SIZE /* 184 */ + \ MSG_SYS_ACL_ALT_SIZE /* 185 */ + \ MSG_SYS_AUDITSYS_ALT_SIZE /* 186 */ + \ MSG_SYS_PROCESSOR_BIND_ALT_SIZE /* 187 */ + \ MSG_SYS_PROCESSOR_INFO_ALT_SIZE /* 188 */ + \ MSG_SYS_P_ONLINE_ALT_SIZE /* 189 */ + \ MSG_SYS_SIGQUEUE_ALT_SIZE /* 190 */ + \ MSG_SYS_CLOCK_GETTIME_ALT_SIZE /* 191 */ + \ MSG_SYS_CLOCK_SETTIME_ALT_SIZE /* 192 */ + \ \ /* sysset_t[6] - System Calls [193 - 224] */ \ MSG_SYS_CLOCK_GETRES_ALT_SIZE /* 193 */ + \ MSG_SYS_TIMER_CREATE_ALT_SIZE /* 194 */ + \ MSG_SYS_TIMER_DELETE_ALT_SIZE /* 195 */ + \ MSG_SYS_TIMER_SETTIME_ALT_SIZE /* 196 */ + \ MSG_SYS_TIMER_GETTIME_ALT_SIZE /* 197 */ + \ MSG_SYS_TIMER_GETOVERRUN_ALT_SIZE /* 198 */ + \ MSG_SYS_NANOSLEEP_ALT_SIZE /* 199 */ + \ MSG_SYS_FACL_ALT_SIZE /* 200 */ + \ MSG_SYS_DOOR_ALT_SIZE /* 201 */ + \ MSG_SYS_SETREUID_ALT_SIZE /* 202 */ + \ MSG_SYS_SETREGID_ALT_SIZE /* 203 */ + \ MSG_SYS_INSTALL_UTRAP_ALT_SIZE /* 204 */ + \ MSG_SYS_SIGNOTIFY_ALT_SIZE /* 205 */ + \ MSG_SYS_SCHEDCTL_ALT_SIZE /* 206 */ + \ MSG_SYS_PSET_ALT_SIZE /* 207 */ + \ MSG_SYS_SPARC_UTRAP_INSTALL_ALT_SIZE /* 208 */ + \ MSG_SYS_RESOLVEPATH_ALT_SIZE /* 209 */ + \ MSG_SYS_LWP_MUTEX_TIMEDLOCK_ALT_SIZE /* 210 */ + \ MSG_SYS_LWP_SEMA_TIMEDWAIT_ALT_SIZE /* 211 */ + \ MSG_SYS_LWP_RWLOCK_SYS_ALT_SIZE /* 212 */ + \ MSG_SYS_GETDENTS64_ALT_SIZE /* 213 */ + \ MSG_SYS_MMAP64_ALT_SIZE /* 214 */ + \ MSG_SYS_STAT64_ALT_SIZE /* 215 */ + \ MSG_SYS_LSTAT64_ALT_SIZE /* 216 */ + \ MSG_SYS_FSTAT64_ALT_SIZE /* 217 */ + \ MSG_SYS_STATVFS64_ALT_SIZE /* 218 */ + \ MSG_SYS_FSTATVFS64_ALT_SIZE /* 219 */ + \ MSG_SYS_SETRLIMIT64_ALT_SIZE /* 220 */ + \ MSG_SYS_GETRLIMIT64_ALT_SIZE /* 221 */ + \ MSG_SYS_PREAD64_ALT_SIZE /* 222 */ + \ MSG_SYS_PWRITE64_ALT_SIZE /* 223 */ + \ MSG_SYS_224_SIZE /* 224 (unused) */ + \ \ /* sysset_t[7] - System Calls [225 - 256] */ \ MSG_SYS_OPEN64_ALT_SIZE /* 225 */ + \ MSG_SYS_RPCSYS_ALT_SIZE /* 226 */ + \ MSG_SYS_ZONE_ALT_SIZE /* 227 */ + \ MSG_SYS_AUTOFSSYS_ALT_SIZE /* 228 */ + \ MSG_SYS_GETCWD_ALT_SIZE /* 229 */ + \ MSG_SYS_SO_SOCKET_ALT_SIZE /* 230 */ + \ MSG_SYS_SO_SOCKETPAIR_ALT_SIZE /* 231 */ + \ MSG_SYS_BIND_ALT_SIZE /* 232 */ + \ MSG_SYS_LISTEN_ALT_SIZE /* 233 */ + \ MSG_SYS_ACCEPT_ALT_SIZE /* 234 */ + \ MSG_SYS_CONNECT_ALT_SIZE /* 235 */ + \ MSG_SYS_SHUTDOWN_ALT_SIZE /* 236 */ + \ MSG_SYS_RECV_ALT_SIZE /* 237 */ + \ MSG_SYS_RECVFROM_ALT_SIZE /* 238 */ + \ MSG_SYS_RECVMSG_ALT_SIZE /* 239 */ + \ MSG_SYS_SEND_ALT_SIZE /* 240 */ + \ MSG_SYS_SENDMSG_ALT_SIZE /* 241 */ + \ MSG_SYS_SENDTO_ALT_SIZE /* 242 */ + \ MSG_SYS_GETPEERNAME_ALT_SIZE /* 243 */ + \ MSG_SYS_GETSOCKNAME_ALT_SIZE /* 244 */ + \ MSG_SYS_GETSOCKOPT_ALT_SIZE /* 245 */ + \ MSG_SYS_SETSOCKOPT_ALT_SIZE /* 246 */ + \ MSG_SYS_SOCKCONFIG_ALT_SIZE /* 247 */ + \ MSG_SYS_NTP_GETTIME_ALT_SIZE /* 248 */ + \ MSG_SYS_NTP_ADJTIME_ALT_SIZE /* 249 */ + \ MSG_SYS_LWP_MUTEX_UNLOCK_ALT_SIZE /* 250 */ + \ MSG_SYS_LWP_MUTEX_TRYLOCK_ALT_SIZE /* 251 */ + \ MSG_SYS_LWP_MUTEX_REGISTER_ALT_SIZE /* 252 */ + \ MSG_SYS_CLADM_ALT_SIZE /* 253 */ + \ MSG_SYS_UUCOPY_ALT_SIZE /* 254 */ + \ MSG_SYS_UMOUNT2_ALT_SIZE /* 255 */ + \ 3 /* 256 (unused) */ + \ \ /* sysset_t[8] - System Calls [257 - 288] */ \ (32 * 3) /* 257 - 288 (unused) */ + \ \ /* sysset_t[9] - System Calls [289 - 320] */ \ (32 * 3) /* 289 - 320 (unused) */ + \ \ /* sysset_t[10] - System Calls [321 - 352] */ \ (32 * 3) /* 321 - 352 (unused) */ + \ \ /* sysset_t[11] - System Calls [353 - 384] */ \ (32 * 3) /* 353 - 384 (unused) */ + \ \ /* sysset_t[12] - System Calls [385 - 416] */ \ (32 * 3) /* 385 - 416 (unused) */ + \ \ /* sysset_t[13] - System Calls [417 - 448] */ \ (32 * 3) /* 417 - 448 (unused) */ + \ \ /* sysset_t[14] - System Calls [449 - 480] */ \ (32 * 3) /* 449 - 480 (unused) */ + \ \ /* sysset_t[15] - System Calls [481 - 512] */ \ (32 * 3) /* 481 - 512 (unused) */ + \ \ CONV_INV_BUFSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE /* * Ensure that Conv_cnote_sysset_buf_t is large enough: * * SYSSET_FLAGSZ is the real minimum size of the buffer required by * conv_cnote_sysset(). However, Conv_cnote_sysset_buf_t * uses CONV_CNOTE_SYSSET_BUFSIZE to set the buffer size. We do * things this way because the definition of SYSSET_FLAGSZ uses information * that is not available in the environment of other programs * that include the conv.h header file. */ #if (CONV_CNOTE_SYSSET_BUFSIZE != SYSSET_FLAGSZ) && !defined(__lint) #define REPORT_BUFSIZE SYSSET_FLAGSZ #include "report_bufsize.h" #error "CONV_CNOTE_SYSSET_BUFSIZE does not match SYSSET_FLAGSZ" #endif const char * conv_cnote_sysset(uint32_t *maskarr, int n_mask, Conv_fmt_flags_t fmt_flags, Conv_cnote_sysset_buf_t *cnote_sysset_buf) { #define N_MASK 16 static const Val_desc vda0[] = { /* System Calls [1 - 32] */ { 0x00000001, MSG_SYS_EXIT_ALT }, { 0x00000002, MSG_SYS_2 }, { 0x00000004, MSG_SYS_READ_ALT }, { 0x00000008, MSG_SYS_WRITE_ALT }, { 0x00000010, MSG_SYS_OPEN_ALT }, { 0x00000020, MSG_SYS_CLOSE_ALT }, { 0x00000040, MSG_SYS_7 }, { 0x00000080, MSG_SYS_8 }, { 0x00000100, MSG_SYS_LINK_ALT }, { 0x00000200, MSG_SYS_UNLINK_ALT }, { 0x00000400, MSG_SYS_11 }, { 0x00000800, MSG_SYS_CHDIR_ALT }, { 0x00001000, MSG_SYS_TIME_ALT }, { 0x00002000, MSG_SYS_MKNOD_ALT }, { 0x00004000, MSG_SYS_CHMOD_ALT }, { 0x00008000, MSG_SYS_CHOWN_ALT }, { 0x00010000, MSG_SYS_BRK_ALT }, { 0x00020000, MSG_SYS_STAT_ALT }, { 0x00040000, MSG_SYS_LSEEK_ALT }, { 0x00080000, MSG_SYS_GETPID_ALT }, { 0x00100000, MSG_SYS_MOUNT_ALT }, { 0x00200000, MSG_SYS_22 }, { 0x00400000, MSG_SYS_SETUID_ALT }, { 0x00800000, MSG_SYS_GETUID_ALT }, { 0x01000000, MSG_SYS_STIME_ALT }, { 0x02000000, MSG_SYS_PCSAMPLE_ALT }, { 0x04000000, MSG_SYS_ALARM_ALT }, { 0x08000000, MSG_SYS_FSTAT_ALT }, { 0x10000000, MSG_SYS_PAUSE_ALT }, { 0x20000000, MSG_SYS_30 }, { 0x40000000, MSG_SYS_STTY_ALT }, { 0x80000000, MSG_SYS_GTTY_ALT }, { 0, 0 } }; static const Val_desc vda1[] = { /* System Calls [33 - 64] */ { 0x00000001, MSG_SYS_ACCESS_ALT }, { 0x00000002, MSG_SYS_NICE_ALT }, { 0x00000004, MSG_SYS_STATFS_ALT }, { 0x00000008, MSG_SYS_SYNC_ALT }, { 0x00000010, MSG_SYS_KILL_ALT }, { 0x00000020, MSG_SYS_FSTATFS_ALT }, { 0x00000040, MSG_SYS_PGRPSYS_ALT }, { 0x00000080, MSG_SYS_UUCOPYSTR_ALT }, { 0x00000100, MSG_SYS_41 }, { 0x00000200, MSG_SYS_PIPE_ALT }, { 0x00000400, MSG_SYS_TIMES_ALT }, { 0x00000800, MSG_SYS_PROFIL_ALT }, { 0x00001000, MSG_SYS_FACCESSAT_ALT }, { 0x00002000, MSG_SYS_SETGID_ALT }, { 0x00004000, MSG_SYS_GETGID_ALT }, { 0x00008000, MSG_SYS_48 }, { 0x00010000, MSG_SYS_MSGSYS_ALT }, { 0x00020000, MSG_SYS_SYSI86_ALT }, { 0x00040000, MSG_SYS_ACCT_ALT }, { 0x00080000, MSG_SYS_SHMSYS_ALT }, { 0x00100000, MSG_SYS_SEMSYS_ALT }, { 0x00200000, MSG_SYS_IOCTL_ALT }, { 0x00400000, MSG_SYS_UADMIN_ALT }, { 0x00800000, MSG_SYS_FCHOWNAT_ALT }, { 0x01000000, MSG_SYS_UTSSYS_ALT }, { 0x0200000, MSG_SYS_FDSYNC_ALT }, { 0x04000000, MSG_SYS_EXECVE_ALT }, { 0x08000000, MSG_SYS_UMASK_ALT }, { 0x10000000, MSG_SYS_CHROOT_ALT }, { 0x20000000, MSG_SYS_FCNTL_ALT }, { 0x40000000, MSG_SYS_ULIMIT_ALT }, { 0x80000000, MSG_SYS_RENAMEAT_ALT }, { 0, 0 } }; static const Val_desc vda2[] = { /* System Calls [65 - 96] */ { 0x00000001, MSG_SYS_UNLINKAT_ALT }, { 0x00000002, MSG_SYS_FSTATAT_ALT }, { 0x00000004, MSG_SYS_FSTATAT64_ALT }, { 0x00000008, MSG_SYS_OPENAT_ALT }, { 0x00000010, MSG_SYS_OPENAT64_ALT }, { 0x00000020, MSG_SYS_TASKSYS_ALT }, { 0x00000040, MSG_SYS_ACCTCTL_ALT }, { 0x00000080, MSG_SYS_EXACCTSYS_ALT }, { 0x00000100, MSG_SYS_GETPAGESIZES_ALT }, { 0x00000200, MSG_SYS_RCTLSYS_ALT }, { 0x00000400, MSG_SYS_SIDSYS_ALT }, { 0x00000800, MSG_SYS_76 }, { 0x00001000, MSG_SYS_LWP_PARK_ALT }, { 0x00002000, MSG_SYS_SENDFILEV_ALT }, { 0x00004000, MSG_SYS_RMDIR_ALT }, { 0x00008000, MSG_SYS_MKDIR_ALT }, { 0x00010000, MSG_SYS_GETDENTS_ALT }, { 0x00020000, MSG_SYS_PRIVSYS_ALT }, { 0x00040000, MSG_SYS_UCREDSYS_ALT }, { 0x00080000, MSG_SYS_SYSFS_ALT }, { 0x00100000, MSG_SYS_GETMSG_ALT }, { 0x00200000, MSG_SYS_PUTMSG_ALT }, { 0x00400000, MSG_SYS_87 }, { 0x00800000, MSG_SYS_LSTAT_ALT }, { 0x01000000, MSG_SYS_SYMLINK_ALT }, { 0x02000000, MSG_SYS_READLINK_ALT }, { 0x04000000, MSG_SYS_SETGROUPS_ALT }, { 0x08000000, MSG_SYS_GETGROUPS_ALT }, { 0x10000000, MSG_SYS_FCHMOD_ALT }, { 0x20000000, MSG_SYS_FCHOWN_ALT }, { 0x40000000, MSG_SYS_SIGPROCMASK_ALT }, { 0x80000000, MSG_SYS_SIGSUSPEND_ALT }, { 0, 0 } }; static const Val_desc vda3[] = { /* System Calls [97 - 128] */ { 0x00000001, MSG_SYS_SIGALTSTACK_ALT }, { 0x00000002, MSG_SYS_SIGACTION_ALT }, { 0x00000004, MSG_SYS_SIGPENDING_ALT }, { 0x00000008, MSG_SYS_CONTEXT_ALT }, { 0x00000010, MSG_SYS_101 }, { 0x00000020, MSG_SYS_102 }, { 0x00000040, MSG_SYS_STATVFS_ALT }, { 0x00000080, MSG_SYS_FSTATVFS_ALT }, { 0x00000100, MSG_SYS_GETLOADAVG_ALT }, { 0x00000200, MSG_SYS_NFSSYS_ALT }, { 0x00000400, MSG_SYS_WAITID_ALT }, { 0x00000800, MSG_SYS_SIGSENDSYS_ALT }, { 0x00001000, MSG_SYS_HRTSYS_ALT }, { 0x00002000, MSG_SYS_UTIMESYS_ALT }, { 0x00004000, MSG_SYS_SIGRESEND_ALT }, { 0x00008000, MSG_SYS_PRIOCNTLSYS_ALT }, { 0x00010000, MSG_SYS_PATHCONF_ALT }, { 0x00020000, MSG_SYS_MINCORE_ALT }, { 0x00040000, MSG_SYS_MMAP_ALT }, { 0x00080000, MSG_SYS_MPROTECT_ALT }, { 0x00100000, MSG_SYS_MUNMAP_ALT }, { 0x00200000, MSG_SYS_FPATHCONF_ALT }, { 0x00400000, MSG_SYS_VFORK_ALT }, { 0x00800000, MSG_SYS_FCHDIR_ALT }, { 0x01000000, MSG_SYS_READV_ALT }, { 0x02000000, MSG_SYS_WRITEV_ALT }, { 0x04000000, MSG_SYS_PREADV_ALT }, { 0x08000000, MSG_SYS_PWRITEV_ALT }, { 0x10000000, MSG_SYS_UPANIC_ALT }, { 0x20000000, MSG_SYS_GETRANDOM_ALT }, { 0x40000000, MSG_SYS_MMAPOBJ_ALT }, { 0x80000000, MSG_SYS_SETRLIMIT_ALT }, { 0, 0 } }; static const Val_desc vda4[] = { /* System Calls [129 - 160] */ { 0x00000001, MSG_SYS_GETRLIMIT_ALT }, { 0x00000002, MSG_SYS_LCHOWN_ALT }, { 0x00000004, MSG_SYS_MEMCNTL_ALT }, { 0x00000008, MSG_SYS_GETPMSG_ALT }, { 0x00000010, MSG_SYS_PUTPMSG_ALT }, { 0x00000020, MSG_SYS_RENAME_ALT }, { 0x00000040, MSG_SYS_UNAME_ALT }, { 0x00000080, MSG_SYS_SETEGID_ALT }, { 0x00000100, MSG_SYS_SYSCONFIG_ALT }, { 0x00000200, MSG_SYS_ADJTIME_ALT }, { 0x00000400, MSG_SYS_SYSTEMINFO_ALT }, { 0x00000800, MSG_SYS_SHAREFS_ALT }, { 0x00001000, MSG_SYS_SETEUID_ALT }, { 0x00002000, MSG_SYS_FORKSYS_ALT }, { 0x00004000, MSG_SYS_143 }, { 0x00008000, MSG_SYS_SIGTIMEDWAIT_ALT }, { 0x00010000, MSG_SYS_LWP_INFO_ALT }, { 0x00020000, MSG_SYS_YIELD_ALT }, { 0x00040000, MSG_SYS_147 }, { 0x00080000, MSG_SYS_LWP_SEMA_POST_ALT }, { 0x00100000, MSG_SYS_LWP_SEMA_TRYWAIT_ALT }, { 0x00200000, MSG_SYS_LWP_DETACH_ALT }, { 0x00400000, MSG_SYS_CORECTL_ALT }, { 0x00800000, MSG_SYS_MODCTL_ALT }, { 0x01000000, MSG_SYS_FCHROOT_ALT }, { 0x02000000, MSG_SYS_154 }, { 0x04000000, MSG_SYS_VHANGUP_ALT }, { 0x08000000, MSG_SYS_GETTIMEOFDAY_ALT }, { 0x10000000, MSG_SYS_GETITIMER_ALT }, { 0x20000000, MSG_SYS_SETITIMER_ALT }, { 0x40000000, MSG_SYS_LWP_CREATE_ALT }, { 0x80000000, MSG_SYS_LWP_EXIT_ALT }, { 0, 0 } }; static const Val_desc vda5[] = { /* System Calls [161 - 192] */ { 0x00000001, MSG_SYS_LWP_SUSPEND_ALT }, { 0x00000002, MSG_SYS_LWP_CONTINUE_ALT }, { 0x00000004, MSG_SYS_LWP_KILL_ALT }, { 0x00000008, MSG_SYS_LWP_SELF_ALT }, { 0x00000010, MSG_SYS_LWP_SIGMASK_ALT }, { 0x00000020, MSG_SYS_LWP_PRIVATE_ALT }, { 0x00000040, MSG_SYS_LWP_WAIT_ALT }, { 0x00000080, MSG_SYS_LWP_MUTEX_WAKEUP_ALT }, { 0x00000100, MSG_SYS_169 }, { 0x00000200, MSG_SYS_LWP_COND_WAIT_ALT }, { 0x00000400, MSG_SYS_LWP_COND_SIGNAL_ALT }, { 0x00000800, MSG_SYS_LWP_COND_BROADCAST_ALT }, { 0x00001000, MSG_SYS_PREAD_ALT }, { 0x00002000, MSG_SYS_PWRITE_ALT }, { 0x00004000, MSG_SYS_LLSEEK_ALT }, { 0x00008000, MSG_SYS_INST_SYNC_ALT }, { 0x00010000, MSG_SYS_BRAND_ALT }, { 0x00020000, MSG_SYS_KAIO_ALT }, { 0x00040000, MSG_SYS_CPC_ALT }, { 0x00080000, MSG_SYS_LGRPSYS_ALT }, { 0x00100000, MSG_SYS_RUSAGESYS_ALT }, { 0x00200000, MSG_SYS_PORT_ALT }, { 0x00400000, MSG_SYS_POLLSYS_ALT }, { 0x00800000, MSG_SYS_LABELSYS_ALT }, { 0x01000000, MSG_SYS_ACL_ALT }, { 0x02000000, MSG_SYS_AUDITSYS_ALT }, { 0x04000000, MSG_SYS_PROCESSOR_BIND_ALT }, { 0x08000000, MSG_SYS_PROCESSOR_INFO_ALT }, { 0x10000000, MSG_SYS_P_ONLINE_ALT }, { 0x20000000, MSG_SYS_SIGQUEUE_ALT }, { 0x40000000, MSG_SYS_CLOCK_GETTIME_ALT }, { 0x80000000, MSG_SYS_CLOCK_SETTIME_ALT }, { 0, 0 } }; static const Val_desc vda6[] = { /* System Calls [193 - 224] */ { 0x00000001, MSG_SYS_CLOCK_GETRES_ALT }, { 0x00000002, MSG_SYS_TIMER_CREATE_ALT }, { 0x00000004, MSG_SYS_TIMER_DELETE_ALT }, { 0x00000008, MSG_SYS_TIMER_SETTIME_ALT }, { 0x00000010, MSG_SYS_TIMER_GETTIME_ALT }, { 0x00000020, MSG_SYS_TIMER_GETOVERRUN_ALT }, { 0x00000040, MSG_SYS_NANOSLEEP_ALT }, { 0x00000080, MSG_SYS_FACL_ALT }, { 0x00000100, MSG_SYS_DOOR_ALT }, { 0x00000200, MSG_SYS_SETREUID_ALT }, { 0x00000400, MSG_SYS_SETREGID_ALT }, { 0x00000800, MSG_SYS_INSTALL_UTRAP_ALT }, { 0x00001000, MSG_SYS_SIGNOTIFY_ALT }, { 0x00002000, MSG_SYS_SCHEDCTL_ALT }, { 0x00004000, MSG_SYS_PSET_ALT }, { 0x00008000, MSG_SYS_SPARC_UTRAP_INSTALL_ALT }, { 0x00010000, MSG_SYS_RESOLVEPATH_ALT }, { 0x00020000, MSG_SYS_LWP_MUTEX_TIMEDLOCK_ALT }, { 0x00040000, MSG_SYS_LWP_SEMA_TIMEDWAIT_ALT }, { 0x00080000, MSG_SYS_LWP_RWLOCK_SYS_ALT }, { 0x00100000, MSG_SYS_GETDENTS64_ALT }, { 0x00200000, MSG_SYS_MMAP64_ALT }, { 0x00400000, MSG_SYS_STAT64_ALT }, { 0x00800000, MSG_SYS_LSTAT64_ALT }, { 0x01000000, MSG_SYS_FSTAT64_ALT }, { 0x02000000, MSG_SYS_STATVFS64_ALT }, { 0x04000000, MSG_SYS_FSTATVFS64_ALT }, { 0x08000000, MSG_SYS_SETRLIMIT64_ALT }, { 0x10000000, MSG_SYS_GETRLIMIT64_ALT }, { 0x20000000, MSG_SYS_PREAD64_ALT }, { 0x40000000, MSG_SYS_PWRITE64_ALT }, { 0x80000000, MSG_SYS_224 }, { 0, 0 } }; static const Val_desc vda7[] = { /* System Calls [225 - 256] */ { 0x00000001, MSG_SYS_OPEN64_ALT }, { 0x00000002, MSG_SYS_RPCSYS_ALT }, { 0x00000004, MSG_SYS_ZONE_ALT }, { 0x00000008, MSG_SYS_AUTOFSSYS_ALT }, { 0x00000010, MSG_SYS_GETCWD_ALT }, { 0x00000020, MSG_SYS_SO_SOCKET_ALT }, { 0x00000040, MSG_SYS_SO_SOCKETPAIR_ALT }, { 0x00000080, MSG_SYS_BIND_ALT }, { 0x00000100, MSG_SYS_LISTEN_ALT }, { 0x00000200, MSG_SYS_ACCEPT_ALT }, { 0x00000400, MSG_SYS_CONNECT_ALT }, { 0x00000800, MSG_SYS_SHUTDOWN_ALT }, { 0x00001000, MSG_SYS_RECV_ALT }, { 0x00002000, MSG_SYS_RECVFROM_ALT }, { 0x00004000, MSG_SYS_RECVMSG_ALT }, { 0x00008000, MSG_SYS_SEND_ALT }, { 0x00010000, MSG_SYS_SENDMSG_ALT }, { 0x00020000, MSG_SYS_SENDTO_ALT }, { 0x00040000, MSG_SYS_GETPEERNAME_ALT }, { 0x00080000, MSG_SYS_GETSOCKNAME_ALT }, { 0x00100000, MSG_SYS_GETSOCKOPT_ALT }, { 0x00200000, MSG_SYS_SETSOCKOPT_ALT }, { 0x00400000, MSG_SYS_SOCKCONFIG_ALT }, { 0x00800000, MSG_SYS_NTP_GETTIME_ALT }, { 0x01000000, MSG_SYS_NTP_ADJTIME_ALT }, { 0x02000000, MSG_SYS_LWP_MUTEX_UNLOCK_ALT }, { 0x04000000, MSG_SYS_LWP_MUTEX_TRYLOCK_ALT }, { 0x08000000, MSG_SYS_LWP_MUTEX_REGISTER_ALT }, { 0x10000000, MSG_SYS_CLADM_ALT }, { 0x20000000, MSG_SYS_UUCOPY_ALT }, { 0x40000000, MSG_SYS_UMOUNT2_ALT }, /* 256 (unused) */ { 0, 0 } }; static const conv_bitmaskset_desc_t bitmask_desc[N_MASK] = { { vda0, 0x00000000 }, { vda1, 0x00000000 }, { vda2, 0x00000000 }, { vda3, 0x00000000 }, { vda4, 0x00000000 }, { vda5, 0x00000000 }, { vda6, 0x00000000 }, { vda7, 0x80000000 }, { NULL, 0xffffffff }, { NULL, 0xffffffff }, { NULL, 0xffffffff }, { NULL, 0xffffffff }, { NULL, 0xffffffff }, { NULL, 0xffffffff }, { NULL, 0xffffffff }, { NULL, 0xffffffff } }; if (n_mask > N_MASK) n_mask = N_MASK; return (conv_bitmaskset(maskarr, n_mask, bitmask_desc, fmt_flags, cnote_sysset_buf->buf, CONV_CNOTE_SYSSET_BUFSIZE)); #undef N_MASK } const char * conv_cnote_fileflags(uint32_t fileflags, Conv_fmt_flags_t fmt_flags, char *buf, size_t bufsize) { CONV_EXPN_FIELD_ARG arg = { 0 }; Val_desc vda[] = { { 0x0001, MSG_PR_O_WRONLY }, { 0x0002, MSG_PR_O_RDONLY }, { 0x200000, MSG_PR_O_SEARCH }, { 0x400000, MSG_PR_O_EXEC }, { 0x0004, MSG_PR_O_NDELAY }, { 0x0008, MSG_PR_O_APPEND }, { 0x0010, MSG_PR_O_SYNC }, { 0x0040, MSG_PR_O_DSYNC }, { 0x0080, MSG_PR_O_NONBLOCK }, { 0x0100, MSG_PR_O_CREAT }, { 0x0200, MSG_PR_O_TRUNC }, { 0x0400, MSG_PR_O_EXCL }, { 0x0800, MSG_PR_O_NOCTTY }, { 0x4000, MSG_PR_O_XATTR }, { 0x8000, MSG_PR_O_RSYNC }, { 0x2000, MSG_PR_O_LARGEFILE }, { 0x20000, MSG_PR_O_NOFOLLOW }, { 0x40000, MSG_PR_O_NOLINKS }, { 0, 0 }, }; arg.oflags = arg.rflags = fileflags; arg.buf = buf; arg.bufsize = bufsize; switch (fileflags & (0x600003)) { case 0: /* RDONLY */ vda[0].v_msg = MSG_PR_O_RDONLY; arg.oflags |= 1; arg.rflags |= 1; break; case 1: /* WRONLY */ case 2: /* RDWR */ case 0x200000: /* SEARCH */ case 0x400000: /* In isolate, treat these as normal bits */ break; default: /* More than one bit set in this group, emit numerically */ arg.oflags &= ~(fileflags & 0x600003); } if (fileflags == 0) return (MSG_ORIG(MSG_GBL_ZERO)); (void) conv_expn_field(&arg, vda, fmt_flags); return (buf); } const char * conv_cnote_filemode(uint32_t mode, Conv_fmt_flags_t fmt_flags, char *buf, size_t bufsize) { CONV_EXPN_FIELD_ARG arg = { 0 }; Msg s; Val_desc vda[] = { { 0x1000, MSG_S_IFIFO }, { 0x800, MSG_S_ISUID }, { 0x400, MSG_S_ISGID }, { 0x200, MSG_S_ISVTX }, { 0400, MSG_S_IRUSR }, { 0200, MSG_S_IWUSR }, { 0100, MSG_S_IXUSR }, { 0040, MSG_S_IRGRP }, { 0020, MSG_S_IWGRP }, { 0010, MSG_S_IXGRP }, { 0004, MSG_S_IROTH }, { 0002, MSG_S_IWOTH }, { 0001, MSG_S_IXOTH }, { 0, 0 }, }; arg.oflags = arg.rflags = mode & ~(0xf000); arg.buf = buf; arg.bufsize = bufsize; switch (mode & (0xf000)) { case 0x1000: s = MSG_S_IFIFO; break; case 0x2000: s = MSG_S_IFCHR; break; case 0x4000: s = MSG_S_IFDIR; break; case 0x5000: s = MSG_S_IFNAM; break; case 0x6000: s = MSG_S_IFBLK; break; case 0x8000: s = MSG_S_IFREG; break; case 0xA000: s = MSG_S_IFLNK; break; case 0xc000: s = MSG_S_IFSOCK; break; case 0xd000: s = MSG_S_IFDOOR; break; case 0xe000: s = MSG_S_IFPORT; break; default: s = 0; break; } if (s) { arg.oflags |= 0x1000; arg.rflags |= 0x1000; vda[0].v_msg = s; } else { arg.rflags = mode; } if (mode == 0) return (MSG_ORIG(MSG_GBL_ZERO)); (void) conv_expn_field(&arg, vda, fmt_flags); return (buf); } const char * conv_cnote_fdflags(uint32_t flags, Conv_fmt_flags_t fmt_flags, char *buf, size_t bufsize) { CONV_EXPN_FIELD_ARG arg = { 0 }; static const Val_desc fdflags[] = { { 0x01, MSG_FD_CLOEXEC }, { 0x02, MSG_FD_CLOFORK }, { 0, 0 } }; if (flags == 0) return (MSG_ORIG(MSG_GBL_ZERO)); arg.buf = buf; arg.bufsize = bufsize; arg.oflags = flags; arg.rflags = flags; (void) conv_expn_field(&arg, fdflags, fmt_flags); return (buf); } #define PROCSECFLGSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ MSG_ASLR_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_FORBIDNULLMAP_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_NOEXECSTACK_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ CONV_INV_BUFSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE /* * Ensure that Conv_cnote_pr_secflags_buf_t is large enough: * * PROCSECFLGSZ is the real minimum size of the buffer required by * conv_prsecflags(). However, Conv_cnote_pr_secflags_buf_t uses * CONV_CNOTE_PSECFLAGS_FLAG_BUFSIZE to set the buffer size. We do things this * way because the definition of PROCSECFLGSZ uses information that is not * available in the environment of other programs that include the conv.h * header file. */ #if (CONV_PRSECFLAGS_BUFSIZE != PROCSECFLGSZ) && !defined(__lint) #define REPORT_BUFSIZE PROCSECFLGSZ #include "report_bufsize.h" #error "CONV_PRSECFLAGS_BUFSIZE does not match PROCSECFLGSZ" #endif const char * conv_prsecflags(secflagset_t flags, Conv_fmt_flags_t fmt_flags, Conv_secflags_buf_t *secflags_buf) { /* * The values are initialized later, based on position in this array */ static Val_desc vda[] = { { 0, MSG_ASLR }, { 0, MSG_FORBIDNULLMAP }, { 0, MSG_NOEXECSTACK }, { 0, 0 } }; static CONV_EXPN_FIELD_ARG conv_arg = { NULL, sizeof (secflags_buf->buf) }; int i; for (i = 0; vda[i].v_msg != 0; i++) vda[i].v_val = secflag_to_bit(i); if (flags == 0) return (MSG_ORIG(MSG_GBL_ZERO)); conv_arg.buf = secflags_buf->buf; conv_arg.oflags = conv_arg.rflags = flags; (void) conv_expn_field(&conv_arg, vda, fmt_flags); return ((const char *)secflags_buf->buf); } #define UPANICFLGSZ CONV_EXPN_FIELD_DEF_PREFIX_SIZE + \ MSG_MSG_VALID_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_MSG_ERROR_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ MSG_MSG_TRUNC_SIZE + CONV_EXPN_FIELD_DEF_SEP_SIZE + \ CONV_INV_BUFSIZE + CONV_EXPN_FIELD_DEF_SUFFIX_SIZE /* * Ensure that Conv_upanic_buf_t is large enough: * * UPANICFLGSZ is the real minimum size of the buffer required by * conv_prsecflags(). However, Conv_upanic_buf_t uses CONV_PRUPANIC_BUFSIZE to * set the buffer size. We do things this way because the definition of * UPANICFLGSZ uses information that is not available in the environment of * other programs that include the conv.h header file. */ #if (CONV_PRUPANIC_BUFSIZE != UPANICFLGSZ) #define REPORT_BUFSIZE UPANICFLGSZ #include "report_bufsize.h" #error "CONV_PRUPANIC_BUFSIZE does not match UPANICFLGSZ" #endif const char * conv_prupanic(uint32_t flags, Conv_fmt_flags_t fmt_flags, Conv_upanic_buf_t *upanic_buf) { /* * Unfortunately, we cannot directly use the PRUPANIC_FLAG_* macros here * because of the fact that this is also built natively and that would * create an unresolvable flag day. */ static Val_desc vda[] = { { 0x01, MSG_MSG_VALID }, { 0x02, MSG_MSG_ERROR }, { 0x04, MSG_MSG_TRUNC }, { 0, 0 } }; static CONV_EXPN_FIELD_ARG conv_arg = { NULL, sizeof (upanic_buf->buf) }; if (flags == 0) return (MSG_ORIG(MSG_GBL_ZERO)); conv_arg.buf = upanic_buf->buf; conv_arg.oflags = conv_arg.rflags = flags; (void) conv_expn_field(&conv_arg, vda, fmt_flags); return ((const char *)upanic_buf->buf); }