/* * 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 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * Copyright 2012 DEY Storage Systems, Inc. All rights reserved. */ #ifndef _SYS_PROCFS_H #define _SYS_PROCFS_H #ifdef __cplusplus extern "C" { #endif /* * This definition is temporary. Structured proc is the preferred API, * and the older ioctl-based interface will be removed in a future version * of Solaris. Until then, by default, including will * provide the older ioctl-based /proc definitions. To get the structured * /proc definitions, either include or define _STRUCTURED_PROC * to be 1 before including . */ #ifndef _STRUCTURED_PROC #define _STRUCTURED_PROC 0 #endif #if !defined(_KERNEL) && _STRUCTURED_PROC == 0 #include #else /* !defined(_KERNEL) && _STRUCTURED_PROC == 0 */ #include #include #include #include #include #include #include #include #include #include #include #include /* * System call interfaces for /proc. */ /* * Control codes (long values) for messages written to ctl and lwpctl files. */ #define PCNULL 0L /* null request, advance to next message */ #define PCSTOP 1L /* direct process or lwp to stop and wait for stop */ #define PCDSTOP 2L /* direct process or lwp to stop */ #define PCWSTOP 3L /* wait for process or lwp to stop, no timeout */ #define PCTWSTOP 4L /* wait for stop, with long millisecond timeout arg */ #define PCRUN 5L /* make process/lwp runnable, w/ long flags argument */ #define PCCSIG 6L /* clear current signal from lwp */ #define PCCFAULT 7L /* clear current fault from lwp */ #define PCSSIG 8L /* set current signal from siginfo_t argument */ #define PCKILL 9L /* post a signal to process/lwp, long argument */ #define PCUNKILL 10L /* delete a pending signal from process/lwp, long arg */ #define PCSHOLD 11L /* set lwp signal mask from sigset_t argument */ #define PCSTRACE 12L /* set traced signal set from sigset_t argument */ #define PCSFAULT 13L /* set traced fault set from fltset_t argument */ #define PCSENTRY 14L /* set traced syscall entry set from sysset_t arg */ #define PCSEXIT 15L /* set traced syscall exit set from sysset_t arg */ #define PCSET 16L /* set modes from long argument */ #define PCUNSET 17L /* unset modes from long argument */ #define PCSREG 18L /* set lwp general registers from prgregset_t arg */ #define PCSFPREG 19L /* set lwp floating-point registers from prfpregset_t */ #define PCSXREG 20L /* set lwp extra registers from prxregset_t arg */ #define PCNICE 21L /* set nice priority from long argument */ #define PCSVADDR 22L /* set %pc virtual address from long argument */ #define PCWATCH 23L /* set/unset watched memory area from prwatch_t arg */ #define PCAGENT 24L /* create agent lwp with regs from prgregset_t arg */ #define PCREAD 25L /* read from the address space via priovec_t arg */ #define PCWRITE 26L /* write to the address space via priovec_t arg */ #define PCSCRED 27L /* set process credentials from prcred_t argument */ #define PCSASRS 28L /* set ancillary state registers from asrset_t arg */ #define PCSPRIV 29L /* set process privileges from prpriv_t argument */ #define PCSZONE 30L /* set zoneid from zoneid_t argument */ #define PCSCREDX 31L /* as PCSCRED but with supplemental groups */ /* * PCRUN long operand flags. */ #define PRCSIG 0x01 /* clear current signal, if any */ #define PRCFAULT 0x02 /* clear current fault, if any */ #define PRSTEP 0x04 /* direct the lwp to single-step */ #define PRSABORT 0x08 /* abort syscall, if in syscall */ #define PRSTOP 0x10 /* set directed stop request */ /* * lwp status file. /proc//lwp//lwpstatus */ #define PRCLSZ 8 /* maximum size of scheduling class name */ #define PRSYSARGS 8 /* maximum number of syscall arguments */ typedef struct lwpstatus { int pr_flags; /* flags (see below) */ id_t pr_lwpid; /* specific lwp identifier */ short pr_why; /* reason for lwp stop, if stopped */ short pr_what; /* more detailed reason */ short pr_cursig; /* current signal, if any */ short pr_pad1; siginfo_t pr_info; /* info associated with signal or fault */ sigset_t pr_lwppend; /* set of signals pending to the lwp */ sigset_t pr_lwphold; /* set of signals blocked by the lwp */ struct sigaction pr_action; /* signal action for current signal */ stack_t pr_altstack; /* alternate signal stack info */ uintptr_t pr_oldcontext; /* address of previous ucontext */ short pr_syscall; /* system call number (if in syscall) */ short pr_nsysarg; /* number of arguments to this syscall */ int pr_errno; /* errno for failed syscall, 0 if successful */ long pr_sysarg[PRSYSARGS]; /* arguments to this syscall */ long pr_rval1; /* primary syscall return value */ long pr_rval2; /* second syscall return value, if any */ char pr_clname[PRCLSZ]; /* scheduling class name */ timestruc_t pr_tstamp; /* real-time time stamp of stop */ timestruc_t pr_utime; /* lwp user cpu time */ timestruc_t pr_stime; /* lwp system cpu time */ int pr_filler[11 - 2 * sizeof (timestruc_t) / sizeof (int)]; int pr_errpriv; /* missing privilege */ uintptr_t pr_ustack; /* address of stack boundary data (stack_t) */ ulong_t pr_instr; /* current instruction */ prgregset_t pr_reg; /* general registers */ prfpregset_t pr_fpreg; /* floating-point registers */ } lwpstatus_t; /* * process status file. /proc//status */ typedef struct pstatus { int pr_flags; /* flags (see below) */ int pr_nlwp; /* number of active lwps in the process */ pid_t pr_pid; /* process id */ pid_t pr_ppid; /* parent process id */ pid_t pr_pgid; /* process group id */ pid_t pr_sid; /* session id */ id_t pr_aslwpid; /* historical; now always zero */ id_t pr_agentid; /* lwp id of the /proc agent lwp, if any */ sigset_t pr_sigpend; /* set of process pending signals */ uintptr_t pr_brkbase; /* address of the process heap */ size_t pr_brksize; /* size of the process heap, in bytes */ uintptr_t pr_stkbase; /* address of the process stack */ size_t pr_stksize; /* size of the process stack, in bytes */ timestruc_t pr_utime; /* process user cpu time */ timestruc_t pr_stime; /* process system cpu time */ timestruc_t pr_cutime; /* sum of children's user times */ timestruc_t pr_cstime; /* sum of children's system times */ sigset_t pr_sigtrace; /* set of traced signals */ fltset_t pr_flttrace; /* set of traced faults */ sysset_t pr_sysentry; /* set of system calls traced on entry */ sysset_t pr_sysexit; /* set of system calls traced on exit */ char pr_dmodel; /* data model of the process (see below) */ char pr_pad[3]; taskid_t pr_taskid; /* task id */ projid_t pr_projid; /* project id */ int pr_nzomb; /* number of zombie lwps in the process */ zoneid_t pr_zoneid; /* zone id */ int pr_filler[15]; /* reserved for future use */ lwpstatus_t pr_lwp; /* status of the representative lwp */ } pstatus_t; /* * pr_flags (same values appear in both pstatus_t and lwpstatus_t pr_flags). * * These flags do *not* apply to psinfo_t.pr_flag or lwpsinfo_t.pr_flag * (which are both deprecated). */ /* The following flags apply to the specific or representative lwp */ #define PR_STOPPED 0x00000001 /* lwp is stopped */ #define PR_ISTOP 0x00000002 /* lwp is stopped on an event of interest */ #define PR_DSTOP 0x00000004 /* lwp has a stop directive in effect */ #define PR_STEP 0x00000008 /* lwp has a single-step directive in effect */ #define PR_ASLEEP 0x00000010 /* lwp is sleeping in a system call */ #define PR_PCINVAL 0x00000020 /* contents of pr_instr undefined */ #define PR_ASLWP 0x00000040 /* obsolete flag; never set */ #define PR_AGENT 0x00000080 /* this lwp is the /proc agent lwp */ #define PR_DETACH 0x00000100 /* this is a detached lwp */ #define PR_DAEMON 0x00000200 /* this is a daemon lwp */ #define PR_IDLE 0x00000400 /* lwp is a cpu's idle thread */ /* The following flags apply to the process, not to an individual lwp */ #define PR_ISSYS 0x00001000 /* this is a system process */ #define PR_VFORKP 0x00002000 /* process is the parent of a vfork()d child */ #define PR_ORPHAN 0x00004000 /* process's process group is orphaned */ #define PR_NOSIGCHLD 0x00008000 /* process will not generate SIGCHLD on exit */ #define PR_WAITPID 0x00010000 /* only waitid(P_PID, pid) can reap the child */ /* The following process flags are modes settable by PCSET/PCUNSET */ #define PR_FORK 0x00100000 /* inherit-on-fork is in effect */ #define PR_RLC 0x00200000 /* run-on-last-close is in effect */ #define PR_KLC 0x00400000 /* kill-on-last-close is in effect */ #define PR_ASYNC 0x00800000 /* asynchronous-stop is in effect */ #define PR_MSACCT 0x01000000 /* micro-state usage accounting is in effect */ #define PR_BPTADJ 0x02000000 /* breakpoint trap pc adjustment is in effect */ #define PR_PTRACE 0x04000000 /* ptrace-compatibility mode is in effect */ #define PR_MSFORK 0x08000000 /* micro-state accounting inherited on fork */ /* * See for possible values of pr_dmodel. */ /* * Reasons for stopping (pr_why). */ #define PR_REQUESTED 1 #define PR_SIGNALLED 2 #define PR_SYSENTRY 3 #define PR_SYSEXIT 4 #define PR_JOBCONTROL 5 #define PR_FAULTED 6 #define PR_SUSPENDED 7 #define PR_CHECKPOINT 8 /* * lwp ps(1) information file. /proc//lwp//lwpsinfo */ #define PRFNSZ 16 /* Maximum size of execed filename */ typedef struct lwpsinfo { int pr_flag; /* lwp flags (DEPRECATED; do not use) */ id_t pr_lwpid; /* lwp id */ uintptr_t pr_addr; /* internal address of lwp */ uintptr_t pr_wchan; /* wait addr for sleeping lwp */ char pr_stype; /* synchronization event type */ char pr_state; /* numeric lwp state */ char pr_sname; /* printable character for pr_state */ char pr_nice; /* nice for cpu usage */ short pr_syscall; /* system call number (if in syscall) */ char pr_oldpri; /* pre-SVR4, low value is high priority */ char pr_cpu; /* pre-SVR4, cpu usage for scheduling */ int pr_pri; /* priority, high value is high priority */ /* The following percent number is a 16-bit binary */ /* fraction [0 .. 1] with the binary point to the */ /* right of the high-order bit (1.0 == 0x8000) */ ushort_t pr_pctcpu; /* % of recent cpu time used by this lwp */ ushort_t pr_pad; timestruc_t pr_start; /* lwp start time, from the epoch */ timestruc_t pr_time; /* usr+sys cpu time for this lwp */ char pr_clname[PRCLSZ]; /* scheduling class name */ char pr_name[PRFNSZ]; /* name of system lwp */ processorid_t pr_onpro; /* processor which last ran this lwp */ processorid_t pr_bindpro; /* processor to which lwp is bound */ psetid_t pr_bindpset; /* processor set to which lwp is bound */ int pr_lgrp; /* lwp home lgroup */ int pr_filler[4]; /* reserved for future use */ } lwpsinfo_t; /* * process ps(1) information file. /proc//psinfo */ #define PRARGSZ 80 /* number of chars of arguments */ typedef struct psinfo { int pr_flag; /* process flags (DEPRECATED; do not use) */ int pr_nlwp; /* number of active lwps in the process */ pid_t pr_pid; /* unique process id */ pid_t pr_ppid; /* process id of parent */ pid_t pr_pgid; /* pid of process group leader */ pid_t pr_sid; /* session id */ uid_t pr_uid; /* real user id */ uid_t pr_euid; /* effective user id */ gid_t pr_gid; /* real group id */ gid_t pr_egid; /* effective group id */ uintptr_t pr_addr; /* address of process */ size_t pr_size; /* size of process image in Kbytes */ size_t pr_rssize; /* resident set size in Kbytes */ size_t pr_pad1; dev_t pr_ttydev; /* controlling tty device (or PRNODEV) */ /* The following percent numbers are 16-bit binary */ /* fractions [0 .. 1] with the binary point to the */ /* right of the high-order bit (1.0 == 0x8000) */ ushort_t pr_pctcpu; /* % of recent cpu time used by all lwps */ ushort_t pr_pctmem; /* % of system memory used by process */ timestruc_t pr_start; /* process start time, from the epoch */ timestruc_t pr_time; /* usr+sys cpu time for this process */ timestruc_t pr_ctime; /* usr+sys cpu time for reaped children */ char pr_fname[PRFNSZ]; /* name of execed file */ char pr_psargs[PRARGSZ]; /* initial characters of arg list */ int pr_wstat; /* if zombie, the wait() status */ int pr_argc; /* initial argument count */ uintptr_t pr_argv; /* address of initial argument vector */ uintptr_t pr_envp; /* address of initial environment vector */ char pr_dmodel; /* data model of the process */ char pr_pad2[3]; taskid_t pr_taskid; /* task id */ projid_t pr_projid; /* project id */ int pr_nzomb; /* number of zombie lwps in the process */ poolid_t pr_poolid; /* pool id */ zoneid_t pr_zoneid; /* zone id */ id_t pr_contract; /* process contract */ int pr_filler[1]; /* reserved for future use */ lwpsinfo_t pr_lwp; /* information for representative lwp */ } psinfo_t; #define PRNODEV (dev_t)(-1) /* non-existent device */ /* * Memory-map interface. /proc//map /proc//rmap */ #define PRMAPSZ 64 typedef struct prmap { uintptr_t pr_vaddr; /* virtual address of mapping */ size_t pr_size; /* size of mapping in bytes */ char pr_mapname[PRMAPSZ]; /* name in /proc//object */ offset_t pr_offset; /* offset into mapped object, if any */ int pr_mflags; /* protection and attribute flags (see below) */ int pr_pagesize; /* pagesize (bytes) for this mapping */ int pr_shmid; /* SysV shmid, -1 if not SysV shared memory */ int pr_filler[1]; /* filler for future expansion */ } prmap_t; /* * HAT memory-map interface. /proc//xmap */ typedef struct prxmap { uintptr_t pr_vaddr; /* virtual address of mapping */ size_t pr_size; /* size of mapping in bytes */ char pr_mapname[PRMAPSZ]; /* name in /proc//object */ offset_t pr_offset; /* offset into mapped object, if any */ int pr_mflags; /* protection and attribute flags (see below) */ int pr_pagesize; /* pagesize (bytes) for this mapping */ int pr_shmid; /* SysV shmid, -1 if not SysV shared memory */ dev_t pr_dev; /* st_dev from stat64() of mapped object, or PRNODEV */ uint64_t pr_ino; /* st_ino from stat64() of mapped object, if any */ size_t pr_rss; /* pages of resident memory */ size_t pr_anon; /* pages of resident anonymous memory */ size_t pr_locked; /* pages of locked memory */ size_t pr_pad; /* currently unused */ uint64_t pr_hatpagesize; /* pagesize of the hat mapping */ #ifdef _ILP32 ulong_t pr_filler[6]; /* filler for future expansion */ #else ulong_t pr_filler[7]; /* filler for future expansion */ #endif } prxmap_t; /* Protection and attribute flags */ #define MA_READ 0x04 /* readable by the traced process */ #define MA_WRITE 0x02 /* writable by the traced process */ #define MA_EXEC 0x01 /* executable by the traced process */ #define MA_SHARED 0x08 /* changes are shared by mapped object */ #define MA_ANON 0x40 /* anonymous memory (e.g. /dev/zero) */ #define MA_ISM 0x80 /* intimate shared mem (shared MMU resources) */ #define MA_NORESERVE 0x100 /* mapped with MAP_NORESERVE */ #define MA_SHM 0x200 /* System V shared memory */ #define MA_RESERVED1 0x400 /* reserved for future use */ /* * These are obsolete and unreliable. * They are included here only for historical compatibility. */ #define MA_BREAK 0x10 /* grown by brk(2) */ #define MA_STACK 0x20 /* grown automatically on stack faults */ /* * Process credentials. PCSCRED and /proc//cred */ typedef struct prcred { uid_t pr_euid; /* effective user id */ uid_t pr_ruid; /* real user id */ uid_t pr_suid; /* saved user id (from exec) */ gid_t pr_egid; /* effective group id */ gid_t pr_rgid; /* real group id */ gid_t pr_sgid; /* saved group id (from exec) */ int pr_ngroups; /* number of supplementary groups */ gid_t pr_groups[1]; /* array of supplementary groups */ } prcred_t; /* * Process privileges. PCSPRIV and /proc//priv */ typedef struct prpriv { uint32_t pr_nsets; /* number of privilege set */ uint32_t pr_setsize; /* size of privilege set */ uint32_t pr_infosize; /* size of supplementary data */ priv_chunk_t pr_sets[1]; /* array of sets */ } prpriv_t; /* * Watchpoint interface. PCWATCH and /proc//watch */ typedef struct prwatch { uintptr_t pr_vaddr; /* virtual address of watched area */ size_t pr_size; /* size of watched area in bytes */ int pr_wflags; /* watch type flags */ int pr_pad; } prwatch_t; /* pr_wflags */ #define WA_READ 0x04 /* trap on read access */ #define WA_WRITE 0x02 /* trap on write access */ #define WA_EXEC 0x01 /* trap on execute access */ #define WA_TRAPAFTER 0x08 /* trap after instruction completes */ /* * PCREAD/PCWRITE I/O interface. */ typedef struct priovec { void *pio_base; /* buffer in controlling process */ size_t pio_len; /* size of read/write request */ off_t pio_offset; /* virtual address in target process */ } priovec_t; /* * Resource usage. /proc//usage /proc//lwp//lwpusage */ typedef struct prusage { id_t pr_lwpid; /* lwp id. 0: process or defunct */ int pr_count; /* number of contributing lwps */ timestruc_t pr_tstamp; /* current time stamp */ timestruc_t pr_create; /* process/lwp creation time stamp */ timestruc_t pr_term; /* process/lwp termination time stamp */ timestruc_t pr_rtime; /* total lwp real (elapsed) time */ timestruc_t pr_utime; /* user level cpu time */ timestruc_t pr_stime; /* system call cpu time */ timestruc_t pr_ttime; /* other system trap cpu time */ timestruc_t pr_tftime; /* text page fault sleep time */ timestruc_t pr_dftime; /* data page fault sleep time */ timestruc_t pr_kftime; /* kernel page fault sleep time */ timestruc_t pr_ltime; /* user lock wait sleep time */ timestruc_t pr_slptime; /* all other sleep time */ timestruc_t pr_wtime; /* wait-cpu (latency) time */ timestruc_t pr_stoptime; /* stopped time */ timestruc_t filltime[6]; /* filler for future expansion */ ulong_t pr_minf; /* minor page faults */ ulong_t pr_majf; /* major page faults */ ulong_t pr_nswap; /* swaps */ ulong_t pr_inblk; /* input blocks */ ulong_t pr_oublk; /* output blocks */ ulong_t pr_msnd; /* messages sent */ ulong_t pr_mrcv; /* messages received */ ulong_t pr_sigs; /* signals received */ ulong_t pr_vctx; /* voluntary context switches */ ulong_t pr_ictx; /* involuntary context switches */ ulong_t pr_sysc; /* system calls */ ulong_t pr_ioch; /* chars read and written */ ulong_t filler[10]; /* filler for future expansion */ } prusage_t; /* * Page data file. /proc//pagedata */ /* page data file header */ typedef struct prpageheader { timestruc_t pr_tstamp; /* real time stamp */ long pr_nmap; /* number of address space mappings */ long pr_npage; /* total number of pages */ } prpageheader_t; /* page data mapping header */ typedef struct prasmap { uintptr_t pr_vaddr; /* virtual address of mapping */ size_t pr_npage; /* number of pages in mapping */ char pr_mapname[PRMAPSZ]; /* name in /proc//object */ offset_t pr_offset; /* offset into mapped object, if any */ int pr_mflags; /* protection and attribute flags */ int pr_pagesize; /* pagesize (bytes) for this mapping */ int pr_shmid; /* SysV shmid, -1 if not SysV shared memory */ int pr_filler[1]; /* filler for future expansion */ } prasmap_t; /* * pr_npage bytes (plus 0-7 null bytes to round up to an 8-byte boundary) * follow each mapping header, each containing zero or more of these flags. */ #define PG_REFERENCED 0x02 /* page referenced since last read */ #define PG_MODIFIED 0x01 /* page modified since last read */ #define PG_HWMAPPED 0x04 /* page is present and mapped */ /* * Open files. Only in core files (for now). Note that we'd like to use * the stat or stat64 structure, but both of these structures are unfortunately * not consistent between 32 and 64 bit modes. To keep our lives simpler, we * just define our own structure with types that are not sensitive to this * difference. Also, it turns out that pfiles omits a lot of info from the * struct stat (e.g. times, device sizes, etc.) so we don't bother adding those * here. */ typedef struct prfdinfo { int pr_fd; mode_t pr_mode; uid_t pr_uid; gid_t pr_gid; major_t pr_major; /* think stat.st_dev */ minor_t pr_minor; major_t pr_rmajor; /* think stat.st_rdev */ minor_t pr_rminor; ino64_t pr_ino; off64_t pr_offset; off64_t pr_size; int pr_fileflags; /* fcntl(F_GETXFL), etc */ int pr_fdflags; /* fcntl(F_GETFD), etc. */ char pr_path[MAXPATHLEN]; } prfdinfo_t; /* * Header for /proc//lstatus /proc//lpsinfo /proc//lusage */ typedef struct prheader { long pr_nent; /* number of entries */ long pr_entsize; /* size of each entry, in bytes */ } prheader_t; /* * Macros for manipulating sets of flags. * sp must be a pointer to one of sigset_t, fltset_t, or sysset_t. * flag must be a member of the enumeration corresponding to *sp. */ /* turn on all flags in set */ #define prfillset(sp) \ { register int _i_ = sizeof (*(sp))/sizeof (uint32_t); \ while (_i_) ((uint32_t *)(sp))[--_i_] = (uint32_t)0xFFFFFFFF; } /* turn off all flags in set */ #define premptyset(sp) \ { register int _i_ = sizeof (*(sp))/sizeof (uint32_t); \ while (_i_) ((uint32_t *)(sp))[--_i_] = (uint32_t)0; } /* turn on specified flag in set */ #define praddset(sp, flag) \ ((void)(((unsigned)((flag)-1) < 32*sizeof (*(sp))/sizeof (uint32_t)) ? \ (((uint32_t *)(sp))[((flag)-1)/32] |= (1U<<(((flag)-1)%32))) : 0)) /* turn off specified flag in set */ #define prdelset(sp, flag) \ ((void)(((unsigned)((flag)-1) < 32*sizeof (*(sp))/sizeof (uint32_t)) ? \ (((uint32_t *)(sp))[((flag)-1)/32] &= ~(1U<<(((flag)-1)%32))) : 0)) /* query: != 0 iff flag is turned on in set */ #define prismember(sp, flag) \ (((unsigned)((flag)-1) < 32*sizeof (*(sp))/sizeof (uint32_t)) && \ (((uint32_t *)(sp))[((flag)-1)/32] & (1U<<(((flag)-1)%32)))) #if defined(_SYSCALL32) /* * dev32_t version of PRNODEV */ #define PRNODEV32 (dev32_t)(-1) /* * Kernel view of /proc structures for _ILP32 programs. */ /* * _ILP32 lwp status file. /proc//lwp//lwpstatus */ typedef struct lwpstatus32 { int pr_flags; /* flags */ id32_t pr_lwpid; /* specific lwp identifier */ short pr_why; /* reason for lwp stop, if stopped */ short pr_what; /* more detailed reason */ short pr_cursig; /* current signal, if any */ short pr_pad1; siginfo32_t pr_info; /* info associated with signal or fault */ sigset_t pr_lwppend; /* set of signals pending to the lwp */ sigset_t pr_lwphold; /* set of signals blocked by the lwp */ struct sigaction32 pr_action; /* signal action for current signal */ stack32_t pr_altstack; /* alternate signal stack info */ caddr32_t pr_oldcontext; /* address of previous ucontext */ short pr_syscall; /* system call number (if in syscall) */ short pr_nsysarg; /* number of arguments to this syscall */ int pr_errno; /* errno for failed syscall, 0 if successful */ int32_t pr_sysarg[PRSYSARGS]; /* arguments to this syscall */ int32_t pr_rval1; /* primary syscall return value */ int32_t pr_rval2; /* second syscall return value, if any */ char pr_clname[PRCLSZ]; /* scheduling class name */ timestruc32_t pr_tstamp; /* real-time time stamp of stop */ timestruc32_t pr_utime; /* lwp user cpu time */ timestruc32_t pr_stime; /* lwp system cpu time */ int pr_filler[11 - 2 * sizeof (timestruc32_t) / sizeof (int)]; int pr_errpriv; /* missing privilege */ caddr32_t pr_ustack; /* address of stack boundary data (stack32_t) */ uint32_t pr_instr; /* current instruction */ prgregset32_t pr_reg; /* general registers */ prfpregset32_t pr_fpreg; /* floating-point registers */ } lwpstatus32_t; /* * _ILP32 process status file. /proc//status */ typedef struct pstatus32 { int pr_flags; /* flags */ int pr_nlwp; /* number of active lwps in the process */ pid32_t pr_pid; /* process id */ pid32_t pr_ppid; /* parent process id */ pid32_t pr_pgid; /* process group id */ pid32_t pr_sid; /* session id */ id32_t pr_aslwpid; /* historical; now always zero */ id32_t pr_agentid; /* lwp id of the /proc agent lwp, if any */ sigset_t pr_sigpend; /* set of process pending signals */ caddr32_t pr_brkbase; /* address of the process heap */ size32_t pr_brksize; /* size of the process heap, in bytes */ caddr32_t pr_stkbase; /* address of the process stack */ size32_t pr_stksize; /* size of the process stack, in bytes */ timestruc32_t pr_utime; /* process user cpu time */ timestruc32_t pr_stime; /* process system cpu time */ timestruc32_t pr_cutime; /* sum of children's user times */ timestruc32_t pr_cstime; /* sum of children's system times */ sigset_t pr_sigtrace; /* set of traced signals */ fltset_t pr_flttrace; /* set of traced faults */ sysset_t pr_sysentry; /* set of system calls traced on entry */ sysset_t pr_sysexit; /* set of system calls traced on exit */ char pr_dmodel; /* data model of the process */ char pr_pad[3]; id32_t pr_taskid; /* task id */ id32_t pr_projid; /* project id */ int pr_nzomb; /* number of zombie lwps in the process */ id32_t pr_zoneid; /* zone id */ int pr_filler[15]; /* reserved for future use */ lwpstatus32_t pr_lwp; /* status of the representative lwp */ } pstatus32_t; /* * _ILP32 lwp ps(1) information file. /proc//lwp//lwpsinfo */ typedef struct lwpsinfo32 { int pr_flag; /* lwp flags */ id32_t pr_lwpid; /* lwp id */ caddr32_t pr_addr; /* internal address of lwp */ caddr32_t pr_wchan; /* wait addr for sleeping lwp */ char pr_stype; /* synchronization event type */ char pr_state; /* numeric lwp state */ char pr_sname; /* printable character for pr_state */ char pr_nice; /* nice for cpu usage */ short pr_syscall; /* system call number (if in syscall) */ char pr_oldpri; /* pre-SVR4, low value is high priority */ char pr_cpu; /* pre-SVR4, cpu usage for scheduling */ int pr_pri; /* priority, high value is high priority */ /* The following percent number is a 16-bit binary */ /* fraction [0 .. 1] with the binary point to the */ /* right of the high-order bit (1.0 == 0x8000) */ ushort_t pr_pctcpu; /* % of recent cpu time used by this lwp */ ushort_t pr_pad; timestruc32_t pr_start; /* lwp start time, from the epoch */ timestruc32_t pr_time; /* usr+sys cpu time for this lwp */ char pr_clname[PRCLSZ]; /* scheduling class name */ char pr_name[PRFNSZ]; /* name of system lwp */ processorid_t pr_onpro; /* processor which last ran this lwp */ processorid_t pr_bindpro; /* processor to which lwp is bound */ psetid_t pr_bindpset; /* processor set to which lwp is bound */ int pr_lgrp; /* lwp home lgroup */ int pr_filler[4]; /* reserved for future use */ } lwpsinfo32_t; /* * _ILP32 process ps(1) information file. /proc//psinfo */ typedef struct psinfo32 { int pr_flag; /* process flags */ int pr_nlwp; /* number of active lwps in the process */ pid32_t pr_pid; /* unique process id */ pid32_t pr_ppid; /* process id of parent */ pid32_t pr_pgid; /* pid of process group leader */ pid32_t pr_sid; /* session id */ uid32_t pr_uid; /* real user id */ uid32_t pr_euid; /* effective user id */ gid32_t pr_gid; /* real group id */ gid32_t pr_egid; /* effective group id */ caddr32_t pr_addr; /* address of process */ size32_t pr_size; /* size of process image in Kbytes */ size32_t pr_rssize; /* resident set size in Kbytes */ size32_t pr_pad1; dev32_t pr_ttydev; /* controlling tty device (or PRNODEV) */ ushort_t pr_pctcpu; /* % of recent cpu time used by all lwps */ ushort_t pr_pctmem; /* % of system memory used by process */ timestruc32_t pr_start; /* process start time, from the epoch */ timestruc32_t pr_time; /* usr+sys cpu time for this process */ timestruc32_t pr_ctime; /* usr+sys cpu time for reaped children */ char pr_fname[PRFNSZ]; /* name of execed file */ char pr_psargs[PRARGSZ]; /* initial characters of arg list */ int pr_wstat; /* if zombie, the wait() status */ int pr_argc; /* initial argument count */ caddr32_t pr_argv; /* address of initial argument vector */ caddr32_t pr_envp; /* address of initial environment vector */ char pr_dmodel; /* data model of the process */ char pr_pad2[3]; id32_t pr_taskid; /* task id */ id32_t pr_projid; /* project id */ int pr_nzomb; /* number of zombie lwps in the process */ id32_t pr_poolid; /* pool id */ id32_t pr_zoneid; /* zone id */ id32_t pr_contract; /* process contract */ int pr_filler[1]; /* reserved for future use */ lwpsinfo32_t pr_lwp; /* information for representative lwp */ } psinfo32_t; /* * _ILP32 Memory-management interface. /proc//map /proc//rmap */ typedef struct prmap32 { caddr32_t pr_vaddr; /* virtual address of mapping */ size32_t pr_size; /* size of mapping in bytes */ char pr_mapname[64]; /* name in /proc//object */ offset_t pr_offset; /* offset into mapped object, if any */ int pr_mflags; /* protection and attribute flags */ int pr_pagesize; /* pagesize (bytes) for this mapping */ int pr_shmid; /* SysV shmid, -1 if not SysV shared memory */ int pr_filler[1]; /* filler for future expansion */ } prmap32_t; /* * _ILP32 HAT memory-map interface. /proc//xmap */ typedef struct prxmap32 { caddr32_t pr_vaddr; /* virtual address of mapping */ size32_t pr_size; /* size of mapping in bytes */ char pr_mapname[PRMAPSZ]; /* name in /proc//object */ offset_t pr_offset; /* offset into mapped object, if any */ int pr_mflags; /* protection and attribute flags (see below) */ int pr_pagesize; /* pagesize (bytes) for this mapping */ int pr_shmid; /* SysV shmid, -1 if not SysV shared memory */ dev32_t pr_dev; /* st_dev from stat64() of mapped object, or PRNODEV */ uint64_t pr_ino; /* st_ino from stat64() of mapped object, if any */ uint32_t pr_rss; /* pages of resident memory */ uint32_t pr_anon; /* pages of resident anonymous memory */ uint32_t pr_locked; /* pages of locked memory */ uint32_t pr_pad; /* currently unused */ uint64_t pr_hatpagesize; /* pagesize of the hat mapping */ uint32_t pr_filler[6]; /* filler for future expansion */ } prxmap32_t; /* * _ILP32 Process credentials. PCSCRED and /proc//cred */ typedef struct prcred32 { uid32_t pr_euid; /* effective user id */ uid32_t pr_ruid; /* real user id */ uid32_t pr_suid; /* saved user id (from exec) */ gid32_t pr_egid; /* effective group id */ gid32_t pr_rgid; /* real group id */ gid32_t pr_sgid; /* saved group id (from exec) */ int pr_ngroups; /* number of supplementary groups */ gid32_t pr_groups[1]; /* array of supplementary groups */ } prcred32_t; /* * _ILP32 Watchpoint interface. PCWATCH and /proc//watch */ typedef struct prwatch32 { caddr32_t pr_vaddr; /* virtual address of watched area */ size32_t pr_size; /* size of watched area in bytes */ int pr_wflags; /* watch type flags */ int pr_pad; } prwatch32_t; /* * _ILP32 PCREAD/PCWRITE I/O interface. */ typedef struct priovec32 { caddr32_t pio_base; /* buffer in controlling process */ size32_t pio_len; /* size of read/write request */ off32_t pio_offset; /* virtual address in target process */ } priovec32_t; /* * _ILP32 Resource usage. /proc//usage /proc//lwp//lwpusage */ typedef struct prusage32 { id32_t pr_lwpid; /* lwp id. 0: process or defunct */ int32_t pr_count; /* number of contributing lwps */ timestruc32_t pr_tstamp; /* current time stamp */ timestruc32_t pr_create; /* process/lwp creation time stamp */ timestruc32_t pr_term; /* process/lwp termination time stamp */ timestruc32_t pr_rtime; /* total lwp real (elapsed) time */ timestruc32_t pr_utime; /* user level cpu time */ timestruc32_t pr_stime; /* system call cpu time */ timestruc32_t pr_ttime; /* other system trap cpu time */ timestruc32_t pr_tftime; /* text page fault sleep time */ timestruc32_t pr_dftime; /* data page fault sleep time */ timestruc32_t pr_kftime; /* kernel page fault sleep time */ timestruc32_t pr_ltime; /* user lock wait sleep time */ timestruc32_t pr_slptime; /* all other sleep time */ timestruc32_t pr_wtime; /* wait-cpu (latency) time */ timestruc32_t pr_stoptime; /* stopped time */ timestruc32_t filltime[6]; /* filler for future expansion */ uint32_t pr_minf; /* minor page faults */ uint32_t pr_majf; /* major page faults */ uint32_t pr_nswap; /* swaps */ uint32_t pr_inblk; /* input blocks */ uint32_t pr_oublk; /* output blocks */ uint32_t pr_msnd; /* messages sent */ uint32_t pr_mrcv; /* messages received */ uint32_t pr_sigs; /* signals received */ uint32_t pr_vctx; /* voluntary context switches */ uint32_t pr_ictx; /* involuntary context switches */ uint32_t pr_sysc; /* system calls */ uint32_t pr_ioch; /* chars read and written */ uint32_t filler[10]; /* filler for future expansion */ } prusage32_t; /* * _ILP32 Page data file. /proc//pagedata */ /* _ILP32 page data file header */ typedef struct prpageheader32 { timestruc32_t pr_tstamp; /* real time stamp */ int32_t pr_nmap; /* number of address space mappings */ int32_t pr_npage; /* total number of pages */ } prpageheader32_t; /* _ILP32 page data mapping header */ typedef struct prasmap32 { caddr32_t pr_vaddr; /* virtual address of mapping */ size32_t pr_npage; /* number of pages in mapping */ char pr_mapname[64]; /* name in /proc//object */ offset_t pr_offset; /* offset into mapped object, if any */ int pr_mflags; /* protection and attribute flags */ int pr_pagesize; /* pagesize (bytes) for this mapping */ int pr_shmid; /* SysV shmid, -1 if not SysV shared memory */ int pr_filler[1]; /* filler for future expansion */ } prasmap32_t; /* * _ILP32 Header for /proc//lstatus /proc//lpsinfo /proc//lusage */ typedef struct prheader32 { int32_t pr_nent; /* number of entries */ int32_t pr_entsize; /* size of each entry, in bytes */ } prheader32_t; #endif /* _SYSCALL32 */ #endif /* !_KERNEL && _STRUCTURED_PROC == 0 */ #ifdef __cplusplus } #endif #endif /* _SYS_PROCFS_H */