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  12 .\" Copyright 2015 Joyent, Inc.
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  14 .Dd May 08, 2016
  15 .Dt LIBPROC 3LIB
  16 .Os
  17 .Sh NAME
  18 .Nm libproc
  19 .Nd process control library
  20 .Sh SYNOPSIS
  21 .Lb libproc
  22 .In libproc.h
  23 .Sh DESCRIPTION
  24 The
  25 .Nm
  26 library provides consumers a general series of interfaces to inspect
  27 and control both live processes and core files. It is intended for
  28 introspection tools such as debuggers by providing a high-level
  29 interface to the /proc file system
  30 .Pf ( Xr proc 4 ) .
  31 .Pp
  32 The
  33 .Nm
  34 library provides interfaces that focus on:
  35 .Bl -bullet -offset indent
  36 .It
  37 Creating and attaching to live process, core files, and arbitrary ELF
  38 objects.
  39 .It
  40 Interrogating the state of a process or core file.
  41 .It
  42 Manipulating the current state of a process or thread.
  43 .It
  44 Interrogating the state of threads of a process or core file.
  45 .It
  46 Running system calls in the context of another process.
  47 .It
  48 Various utilities for iterating process and core file file descriptors,
  49 mappings, symbols, and more.
  50 .It
  51 Various utilities to support debugging tools.
  52 .El
  53 .Ss Live Processes
  54 The
  55 .Nm
  56 library can be used to manipulate running processes and to create new
  57 ones. To manipulate an existing process first
  58 .Em grab
  59 it with the
  60 .Em Pgrab
  61 function. A process is generally stopped as a side effect of grabbing
  62 it. Callers must exercise caution, as if they do not use the library
  63 correctly, or they terminate unexpectedly, a process may remain
  64 stopped.
  65 .Pp
  66 Unprivileged users may only grab their own processes. Users with the
  67 privilege
  68 .Sy PRIV_PROC_OWNER
  69 may manipulate processes that they do not own; however, additional
  70 restrictions as described in
  71 .Xr privileges 5
  72 apply.
  73 .Pp
  74 In addition, the
  75 .Fn Pcreate
  76 and
  77 .Fn Pxcreate
  78 functions may be used to create processes which are always controlled by
  79 the library.
  80 .Ss Core Files
  81 The
  82 .Nm
  83 library has the ability to open and interpret core files produced by
  84 processes on the system. Process core dump generation is controlled by
  85 the
  86 .Xr coreadm 1M
  87 command. In addition, the library has the ability to understand and
  88 interpret core dumps generated by Linux kernel and can provide a subset
  89 of its functionality on such core files, provided the original binary is
  90 also present.
  91 .Pp
  92 Not all functions in the
  93 .Nm
  94 library are valid for core files. In general, none of the commands
  95 which manipulate the current state of a process or thread or that try
  96 to force system calls on a victim process will work. Furthermore
  97 several of the information and iteration interfaces are limited based
  98 on the data that is available in the core file. For example, if the
  99 core file is of a process that omits the frame pointer, the ability to
 100 iterate the stack will be limited.
 101 .Pp
 102 Use the
 103 .Fn Pgrab_core
 104 or
 105 .Fn Pfgrab_core
 106 function to open a core file. Use the
 107 .Fn Pgrab_file
 108 function to open an ELF object file.
 109 This is useful for obtaining information stored in ELF headers and
 110 sections.
 111 .Ss Debug Information
 112 Many of the operations in the library rely on debug information being
 113 present in a process and its associated libraries. The library
 114 leverages symbol table information, CTF data
 115 .Pf ( Xr CTF 4 )
 116 sections, and frame unwinding information based on the use of an ABI
 117 defined frame pointer, eg.
 118 .Sy %ebp
 119 and
 120 .Sy %rbp
 121 on x86 systems.
 122 .Pp
 123 Some software providers strip programs of this information or build
 124 their executables such that the information will not be present in a
 125 core dump. To deal with this fact, the library is able to consume
 126 information that is not present in the core file or the running
 127 process. It can both consume it from the underlying executable and it
 128 also supports finding it from related ELF objects that are linked to
 129 it via the
 130 .Sy .gnu_debuglink
 131 and the
 132 .Sy .note.gnu.build-id
 133 ELF sections.
 134 .Ss Iteration Interfaces
 135 The
 136 .Nm
 137 library provides the ability to iterate over the following aspects of a
 138 process or core file:
 139 .Bl -bullet -offset indent
 140 .It
 141 Active threads
 142 .It
 143 Active and zombie threads
 144 .It
 145 All non-system processes
 146 .It
 147 All process mappings
 148 .It
 149 All objects in a process
 150 .It
 151 The environment
 152 .It
 153 The symbol table
 154 .It
 155 Stack frames
 156 .It
 157 File Descriptors
 158 .El
 159 .Ss System Call Injection
 160 The
 161 .Nm
 162 library allows the caller to force system calls to be executed in the
 163 context of the running process. This can be used both as a tool for
 164 introspection, allowing one to get information outside its current
 165 context as well as performing modifications to a process.
 166 .Pp
 167 These functions run in the context of the calling process. This is
 168 often an easier way of getting non-exported information about a
 169 process from the system. For example, the
 170 .Xr pfiles 1
 171 command uses this interface to get more detailed information about a
 172 process's open file descriptors, which it would not have access to
 173 otherwise.
 174 .Sh INTERFACES
 175 The shared object
 176 .Sy libproc.so.1
 177 provides the public interfaces defined below. See
 178 .Xr Intro 3
 179 for additional information on shared object interfaces. Functions are
 180 organized into categories that describe their purpose. Individual
 181 functions are documented in their own manual pages.
 182 .Ss Creation, Grabbing, and Releasing
 183 The following routines are related to creating library handles,
 184 grabbing cores, processes, and threads, and releasing those resources.
 185 .Bl -column -offset indent ".Sy Pmapping_iter_resolved" ".Sy Psymbol_iter_by_addr"
 186 .It Sy Lfree Ta Sy Lgrab
 187 .It Sy Lgrab_error Ta Sy Pcreate
 188 .It Sy Pcreate_agent Ta Sy Pcreate_callback
 189 .It Sy Pcreate_error Ta Sy Pdestroy_agent
 190 .It Sy Pfgrab_core Ta Sy Pfree
 191 .It Sy Pgrab Ta Sy Pgrab_core
 192 .It Sy Pgrab_error Ta Sy Pgrab_file
 193 .It Sy Pgrab_ops Ta Sy Prelease
 194 .It Sy Preopen Ta Sy Pxcreate
 195 .El
 196 .Ss Process interrogation and manipulation
 197 The following routines obtain information about a process and allow
 198 manipulation of the process itself.
 199 .Bl -column -offset indent ".Sy Pmapping_iter_resolved" ".Sy Psymbol_iter_by_addr"
 200 .It Sy Paddr_to_ctf Ta Sy Paddr_to_loadobj
 201 .It Sy Paddr_to_map Ta Sy Paddr_to_text_map
 202 .It Sy Pasfd Ta Sy Pclearfault
 203 .It Sy Pclearsig Ta Sy Pcontent
 204 .It Sy Pcred Ta Sy Pctlfd
 205 .It Sy Pdelbkpt Ta Sy Pdelwapt
 206 .It Sy Pdstop Ta Sy Pexecname
 207 .It Sy Pfault Ta Sy Pfgcore
 208 .It Sy Pgcore Ta Sy Pgetareg
 209 .It Sy Pgetauxval Ta Sy Pgetauxvec
 210 .It Sy Pgetenv Ta Sy Pisprocdir
 211 .It Sy Pissyscall_prev Ta Sy Plmid
 212 .It Sy Plmid_to_loadobj Ta Sy Plmid_to_map
 213 .It Sy Plookup_by_addr Ta Sy Plookup_by_name
 214 .It Sy Plwp_alt_stack Ta Sy Plwp_getfpregs
 215 .It Sy Plwp_getpsinfo Ta Sy Plwp_getregs
 216 .It Sy Plwp_getspymaster Ta Sy Plwp_main_stack
 217 .It Sy Plwp_setfpregs Ta Sy Plwp_setregs
 218 .It Sy Plwp_stack Ta Sy Pname_to_ctf
 219 .It Sy Pname_to_loadobj Ta Sy Pname_to_map
 220 .It Sy Pobjname Ta Sy Pobjname_resolved
 221 .It Sy Pplatform Ta Sy Ppltdest
 222 .It Sy Ppriv Ta Sy Ppsinfo
 223 .It Sy Pputareg Ta Sy Prd_agent
 224 .It Sy Pread Ta Sy Pread_string
 225 .It Sy Preset_maps Ta Sy Psetbkpt
 226 .It Sy Psecflags Ta Sy Psetcred
 227 .It Sy Psetfault Ta Sy Psetflags
 228 .It Sy Psetpriv Ta Sy Psetrun
 229 .It Sy Psetsignal Ta Sy Psetsysentry
 230 .It Sy Psetsysexit Ta Sy Psetwapt
 231 .It Sy Psetzoneid Ta Sy Psignal
 232 .It Sy Pstate Ta Sy Pstatus
 233 .It Sy Pstop Ta Sy Pstopstatus
 234 .It Sy Psync Ta Sy Psysentry
 235 .It Sy Psysexit Ta Sy Puname
 236 .It Sy Punsetflags Ta Sy Pupdate_maps
 237 .It Sy Pupdate_syms Ta Sy Pwait
 238 .It Sy Pwrite Ta Sy Pxecbkpt
 239 .It Sy Pxecwapt Ta Sy Pxlookup_by_addr
 240 .It Sy Pxlookup_by_addr_resolved Ta Sy Pxlookup_by_name
 241 .It Sy Pzonename Ta Sy Pzonepath
 242 .It Sy Pzoneroot Ta
 243 .El
 244 .Ss Thread interrogation and manipulation
 245 The following routines obtain information about a thread and allow
 246 manipulation of the thread itself.
 247 .Bl -column -offset indent ".Sy Pmapping_iter_resolved" ".Sy Psymbol_iter_by_addr"
 248 .It Sy Lalt_stack Ta Sy Lclearfault
 249 .It Sy Lclearsig Ta Sy Lctlfd
 250 .It Sy Ldstop Ta Sy Lgetareg
 251 .It Sy Lmain_stack Ta Sy Lprochandle
 252 .It Sy Lpsinfo Ta Sy Lputareg
 253 .It Sy Lsetrun Ta Sy Lstack
 254 .It Sy Lstate Ta Sy Lstatus
 255 .It Sy Lstop Ta Sy Lsync
 256 .It Sy Lwait Ta Sy Lxecbkpt
 257 .It Sy Lxecwapt Ta ""
 258 .El
 259 .Ss System Call Injection
 260 The following routines are used to inject specific system calls and have
 261 them run in the context of a process.
 262 .Bl -column -offset indent ".Sy Pmapping_iter_resolved" ".Sy Psymbol_iter_by_addr"
 263 .It Sy pr_access Ta Sy pr_close
 264 .It Sy pr_creat Ta Sy pr_door_info
 265 .It Sy pr_exit Ta Sy pr_fcntl
 266 .It Sy pr_fstat Ta Sy pr_fstat64
 267 .It Sy pr_fstatvfs Ta Sy pr_getitimer
 268 .It Sy pr_getpeername Ta Sy pr_getpeerucred
 269 .It Sy pr_getprojid Ta Sy pr_getrctl
 270 .It Sy pr_getrlimit Ta Sy pr_getrlimit64
 271 .It Sy pr_getsockname Ta Sy pr_getsockopt
 272 .It Sy pr_gettaskid Ta Sy pr_getzoneid
 273 .It Sy pr_ioctl Ta Sy pr_link
 274 .It Sy pr_llseek Ta Sy pr_lseek
 275 .It Sy pr_lstat Ta Sy pr_lstat64
 276 .It Sy pr_memcntl Ta Sy pr_meminfo
 277 .It Sy pr_mmap Ta Sy pr_munmap
 278 .It Sy pr_open Ta Sy pr_processor_bind
 279 .It Sy pr_rename Ta Sy pr_setitimer
 280 .It Sy pr_setrctl Ta Sy pr_setrlimit
 281 .It Sy pr_setrlimit64 Ta Sy pr_settaskid
 282 .It Sy pr_sigaction Ta Sy pr_stat
 283 .It Sy pr_stat64 Ta Sy pr_statvfs
 284 .It Sy pr_unlink Ta Sy pr_waitid
 285 .El
 286 .Ss Iteration routines
 287 These routines are used to iterate over the contents of a process.
 288 .Bl -column -offset indent ".Sy Pmapping_iter_resolved" ".Sy Psymbol_iter_by_addr"
 289 .It Sy Penv_iter Ta Sy Plwp_iter
 290 .It Sy Plwp_iter_all Ta Sy Pmapping_iter
 291 .It Sy Pmapping_iter_resolved Ta Sy Pobject_iter
 292 .It Sy Pobject_iter_resolved Ta Sy Pstack_iter
 293 .It Sy Psymbol_iter Ta Sy Psymbol_iter_by_addr
 294 .It Sy Psymbol_iter_by_lmid Ta Sy Psymbol_iter_by_name
 295 .It Sy Pxsymbol_iter Ta Sy Pfdinfo_iter
 296 .El
 297 .Ss Utility routines
 298 The following routines are utilities that are useful to consumers of the
 299 library.
 300 .Bl -column -offset indent ".Sy Pmapping_iter_resolved" ".Sy Psymbol_iter_by_addr"
 301 .It Sy Perror_printf Ta Sy proc_arg_grab
 302 .It Sy proc_arg_psinfo Ta Sy proc_arg_xgrab
 303 .It Sy proc_arg_xpsinfo Ta Sy proc_content2str
 304 .It Sy proc_finistdio Ta Sy proc_fltname
 305 .It Sy proc_fltset2str Ta Sy proc_flushstdio
 306 .It Sy proc_get_auxv Ta Sy proc_get_cred
 307 .It Sy proc_get_priv Ta Sy proc_get_psinfo
 308 .It Sy proc_get_status Ta Sy proc_initstdio
 309 .It Sy proc_lwp_in_set Ta Sy proc_lwp_range_valid
 310 .It Sy proc_signame Ta Sy proc_sigset2str
 311 .It Sy proc_str2content Ta Sy proc_str2flt
 312 .It Sy proc_str2fltset Ta Sy proc_str2sig
 313 .It Sy proc_str2sigset Ta Sy proc_str2sys
 314 .It Sy proc_str2sysset Ta Sy proc_sysname
 315 .It Sy proc_sysset2str Ta Sy proc_unctrl_psinfo
 316 .It Sy proc_walk Ta ""
 317 .El
 318 .Ss x86 Specific Routines
 319 The following routines are specific to the x86, 32-bit and 64-bit,
 320 versions of the
 321 .Nm
 322 library.
 323 .Bl -column -offset indent ".Sy Pmapping_iter_resolved" ".Sy Psymbol_iter_by_addr"
 324 .It Sy Pldt Ta Sy proc_get_ldt
 325 .El
 326 .Ss SPARC specific Routines
 327 The following functions are specific to the SPARC, 32-bit and 64-bit,
 328 versions of the
 329 .Nm
 330 library.
 331 .Bl -column -offset indent ".Sy Pmapping_iter_resolved" ".Sy Psymbol_iter_by_addr"
 332 .It Sy Plwp_getgwindows Ta Sy Plwp_getxregs
 333 .It Sy Plwp_setxregs Ta Sy ""
 334 .El
 335 .Pp
 336 The following functions are specific to the 64-bit SPARC version of the
 337 .Nm
 338 library.
 339 .Bl -column -offset indent ".Sy Pmapping_iter_resolved" ".Sy Psymbol_iter_by_addr"
 340 .It Sy Plwp_getasrs Ta Sy Plwp_setasrs
 341 .El
 342 .Sh PROCESS STATES
 343 Every process handle that exists in
 344 .Nm
 345 has a state. In some cases, such as for core files, these states are
 346 static. In other cases, such as handles that correspond to a
 347 running process or a created process, these states are dynamic and
 348 change based on actions taken in the library. The state can be obtained
 349 with the
 350 .Xr Pstate 3PROC
 351 function.
 352 .Pp
 353 The various states are:
 354 .Bl -tag -width Dv -offset indent
 355 .It Dv PS_RUN
 356 An actively running process. This may be a process that was obtained
 357 by creating it with functions such as
 358 .Xr Pcreate 3PROC
 359 or by grabbing an existing process such as
 360 .Xr Pgrab 3PROC .
 361 .It Dv PS_STOP
 362 An active process that is no longer executing. A process may stop for
 363 many reasons such as an explicit stop request (through
 364 .Xr pstop 1
 365 for example) or if a tracing event is hit.
 366 .Pp
 367 The reason a process is stopped may be obtained through the thread's
 368 .Sy lwpstatus_t
 369 structure read directly from /proc or obtained through the
 370 .Xr Lstatus 3PROC
 371 function.
 372 .It Dv PS_LOST
 373 Control over the process has been lost. This may happen when the
 374 process executes a new image requiring a different set of privileges.
 375 To resume control call
 376 .Xr Preopen 3PROC . For more information on losing control of a process,
 377 see
 378 .Xr proc 4 .
 379 .It DV PS_UNDEAD
 380 A zombie process. It has terminated, but it has not been cleaned up
 381 yet by its parent. For more on the conditions of becoming a zombie,
 382 see
 383 .Xr exec 2 .
 384 .It DV_PS_DEAD
 385 Processes in this state are always core files. See the earlier section
 386 .Sx Core Files
 387 for more information on working with core files.
 388 .It Dv PS_IDLE
 389 A process that has never been run. This is always the case for handles
 390 that refer to files as the files cannot be executed. Those process
 391 handles are obtained through calling
 392 .Xr Pgrab_file 3PROC .
 393 .El
 394 .Pp
 395 Many functions relating to tracing processes, for example
 396 .Xr Psignal 3PROC ,
 397 .Xr Psetsignal 3PROC ,
 398 .Xr Psetfault 3PROC ,
 399 .Xr Psetentry 3PROC ,
 400 and others, mention that they only act upon
 401 .Em Active Processes .
 402 This specifically refers to processes whose state are in
 403 .Dv PS_RUN
 404 and
 405 .Dv PS_STOP .
 406 Process handles in the other states have no notion of settable tracing
 407 flags, though core files
 408 .Pf ( type Dv PS_DEAD ) ,
 409 =======
 410 may have a read-only snapshot of their tracing settings available.
 411 .Sh TYPES
 412 The
 413 .Nm
 414 library uses many types that come from the /proc file system
 415 .Pf ( Xr proc 4 )
 416 and the ELF format
 417 .Pf ( Xr elf 3ELF ) .
 418 However, it also defines the following types:
 419 .Pp
 420 .Sy struct ps_prochandle
 421 .Pp
 422 The
 423 .Sy struct ps_prochandle
 424 is an opaque handle to the library and the core element of control for a
 425 process. Consumers obtain pointers to a handle through the use of the
 426 .Fn Pcreate ,
 427 .Fn Pgrab ,
 428 and related functions. When a caller is done with a handle, then it
 429 should call one of the
 430 .Fn Pfree
 431 and
 432 .Fn Prelease
 433 functions to relinquish the handle, release associated resources, and
 434 potentially set the process to run again.
 435 .Pp
 436 .Sy struct ps_lwphandle
 437 .Pp
 438 The
 439 .Sy struct ps_lwphandle
 440 is analogous to the
 441 .Sy struct ps_prochandle ,
 442 but it represents the control of an individual thread, rather than a
 443 process. Consumers obtain pointers to a handle through the
 444 .Fn Lgrab
 445 function and relinquish it with the
 446 .Fn Lfree
 447 function.
 448 .Pp
 449 .Sy core_content_t
 450 .Pp
 451 The
 452 .Sy core_content_t
 453 is a value which describes the various content types of core files.
 454 These are used in functions such as
 455 .Xr Pcontent 3PROC
 456 and
 457 .Xr Pgcore 3PROC
 458 to describe and control the types of content that get included. Various
 459 content types may be included together through a bitwise-inclusive-OR.
 460 The default system core contents are controlled with the
 461 .Xr coreadm 1M
 462 tool. The following table lists the current set of core contents in the
 463 system, though the set may increase over time. The string after the
 464 macro is the human readable string that corresponds with the constant
 465 and is used by
 466 .Xr coreadm 1M ,
 467 .Xr proc_content2str 3PROC ,
 468 and
 469 .Xr proc_str2content 3PROC .
 470 .Bl -tag -offset indent -width indent
 471 .It Dv CC_CONTENT_STACK ("stack")
 472 The contents include the process stack. Note, this only covers the main
 473 thread's stack. The stack of other threads is covered by
 474 .Dv CC_CONTENT_ANON .
 475 .It Dv CC_CONTENT_HEAP ("heap")
 476 The contents include the process heap.
 477 .It Dv CC_CONTENT_SHFILE ("shfile")
 478 The contents include shared mappings that are backed by files (e.g.
 479 mapped through
 480 .Xr mmap 2
 481 with the
 482 .Dv MAP_SHARED
 483 flag).
 484 .It Dv CC_CONTENT_SHANNON ("shannon")
 485 The contents include shared mappings that are backed by anonymous memory
 486 (e.g. mapped through
 487 .Xr mmap 2
 488 with the
 489 .Dv MAP_SHARED
 490 and
 491 .Dv MAP_ANON
 492 flags).
 493 .It Dv CC_CONTENT_RODATA ("rodata")
 494 The contents include private read-only file mappings, such as shared
 495 library text.
 496 .It Dv CC_CONTENT_ANON ("anon")
 497 The contents include private anonymous mappings. This includes the
 498 stacks of threads which are not the main thread.
 499 .It Dv CC_CONTENT_SHM ("shm")
 500 The contents include system V shared memory.
 501 .It Dv CC_CONTENT_ISM ("ism")
 502 The contents include ISM (intimate shared memory) mappings.
 503 .It Dv CC_CONTENT_DISM ("dism")
 504 The contents include DISM (dynamic shared memory) mappings.
 505 .It Dv CC_CONTENT_CTF ("ctf")
 506 The contents include
 507 .Xr ctf 4
 508 (Compact C Type Format) information. Note, not all objects in the
 509 process may have CTF information available.
 510 .It Dv CC_CONTENT_SYMTAB ("symtab")
 511 The contents include the symbol table. Note, not all objects in the
 512 process may have a symbol table available.
 513 .It Dv CC_CONTENT_ALL ("all")
 514 This value indicates that all of the above content values are present.
 515 Note that additional values may be added in the future, in which case
 516 the value of the symbol will be updated to include them. Comparisons
 517 with
 518 .Dv CC_CONTENT_ALL
 519 should validate all the expected bits are set by an expression such as
 520 .Li (c & CC_CONTENT_ALL) == CC_CONTENT_ALL .
 521 .It Dv CC_CONTENT_NONE ("none")
 522 This value indicates that there is no content present.
 523 .It Dv CC_CONTENT_DEFAULT ("default")
 524 The content includes the following set of default values:
 525 .Dv CC_CONTENT_STACK ,
 526 .Dv CC_CONTENT_HEAP ,
 527 .Dv CC_CONTENT_ISM ,
 528 .Dv CC_CONTENT_DISM ,
 529 .Dv CC_CONTENT_SHM ,
 530 .Dv CC_CONTENT_SHANON ,
 531 .Dv CC_CONTENT_TEXT ,
 532 .Dv CC_CONTENT_DATA ,
 533 .Dv CC_CONTENT_RODATA ,
 534 .Dv CC_CONTENT_ANON ,
 535 .Dv CC_CONTENT_CTF ,
 536 and
 537 .Dv CC_CONTENT_SYMTAB.
 538 Note that the default may change. Comparisons with CC_CONTENT_DEFAULT
 539 should validate that all of the expected bits are set with an expression
 540 such as
 541 .Li (c\ &\ CC_CONTENT_DEFAULT)\ ==\ CC_CONTENT_DEFAULT.
 542 .It Dv CC_CONTENT_INVALID
 543 This indicates that the contents are invalid.
 544 .El
 545 .Pp
 546 .Sy prfdinfo_t
 547 .Pp
 548 The
 549 .Sy prfdinfo_t
 550 structure is used with the
 551 .Fn Pfdinfo_iter
 552 function which describes information about a file descriptor. The
 553 structure is defined as follows:
 554 .Bd -literal
 555 typedef struct prfdinfo {
 556         int             pr_fd;
 557         mode_t          pr_mode;
 558         uid_t           pr_uid;
 559         gid_t           pr_gid;
 560         major_t         pr_major;       /* think stat.st_dev */
 561         minor_t         pr_minor;
 562         major_t         pr_rmajor;      /* think stat.st_rdev */
 563         minor_t         pr_rminor;
 564         ino64_t         pr_ino;
 565         off64_t         pr_offset;
 566         off64_t         pr_size;
 567         int             pr_fileflags;   /* fcntl(F_GETXFL), etc */
 568         int             pr_fdflags;     /* fcntl(F_GETFD), etc. */
 569         char            pr_path[MAXPATHLEN];
 570 } prfdinfo_t;
 571 .Ed
 572 .Pp
 573 The structure has similar information to that found in the
 574 .Sy stat
 575 structure that's used as part of the stat family of system calls,
 576 defined in
 577 .Xr stat 2 .
 578 The member
 579 .Sy pr_fd
 580 contains the number of the file descriptor of the file. The members
 581 .Sy pr_mode ,
 582 .Sy pr_uid ,
 583 .Sy pr_gid ,
 584 .Sy pr_ino ,
 585 and
 586 .Sy pr_size
 587 are the same as the members
 588 .Sy st_mode ,
 589 .Sy st_uid ,
 590 .Sy st_gid ,
 591 .Sy st_ino ,
 592 and
 593 .Sy st_size
 594 in the
 595 .Sy stat
 596 structure.
 597 .Pp
 598 The
 599 .Sy pr_major
 600 and
 601 .Sy pr_minor
 602 members contain the major and minor numbers of the device containing the
 603 directory for this file. This is similar to the
 604 .Sy st_dev
 605 member of the
 606 .Sy stat
 607 structure, except that it is broken out into its major and minor components.
 608 The
 609 .Sy pr_rmajor
 610 and
 611 .Sy pr_rminor
 612 members are similar in spirit to
 613 .Sy pr_major
 614 and
 615 .Sy pr_minor ;
 616 however, they are equivalent to the
 617 .Sy st_rdev
 618 member of the
 619 .Sy stat
 620 structure and thus have meaning for special character and block files.
 621 .Pp
 622 The
 623 .Sy pr_offset
 624 member contains the current seek offset of the file descriptor. The
 625 .Sy pr_fileflags
 626 and
 627 .Sy pr_fdflags
 628 members contain the flags that would have been returned by a call to
 629 .Xr fcntl 2
 630 with the arguments
 631 .Dv F_GETXFL
 632 and
 633 .Dv F_GETFD
 634 respectively.
 635 .Pp
 636 .Sy prsyminfo_t
 637 .Pp
 638 The
 639 .Sy prsyminfo_t
 640 structure is used with the various symbol look up functions
 641 .Fn Pxlookup_by_name ,
 642 .Fn Pxlookup_by_addr ,
 643 and
 644 .Fn Pxlookup_by_addr_resolved
 645 which describes additional information about a symbol.
 646 The structure is defined as follows:
 647 .Bd -literal
 648 typedef struct prsyminfo {
 649         const char      *prs_object;            /* object name */
 650         const char      *prs_name;              /* symbol name */
 651         Lmid_t          prs_lmid;               /* link map id */
 652         uint_t          prs_id;                 /* symbol id */
 653         uint_t          prs_table;              /* symbol table id */
 654 } prsyminfo_t;
 655 .Ed
 656 .Pp
 657 The member
 658 .Sy prs_object
 659 points to a string that contains the name of the object file, if known,
 660 that the symbol comes from. The member
 661 .Sy prs_name
 662 points to the name of the symbol, if known. This may be unknown due to a
 663 stripped binary that contains no symbol table. The member
 664 .Sy prs_lmid
 665 indicates the link map identifier that the symbol was found on. For more
 666 information on link map identifiers refer to the
 667 .Em Linker and Libraries Guide
 668 and
 669 .Xr dlopen 3C .
 670 .Pp
 671 The members
 672 .Sy prs_id
 673 and
 674 .Sy prs_table
 675 can be used to determine both the symbol table that the entry came from
 676 and which entry in the table it corresponds to. If the value of
 677 .Sy prs_table
 678 is
 679 .Dv PR_SYMTAB
 680 then it came from the ELF standard symbol table. However, if it is instead
 681 .Dv PR_DYNSYM ,
 682 then that indicates that it comes from the process's dynamic section.
 683 .Pp
 684 .Sy proc_lwp_f
 685 .Pp
 686 The
 687 .Sy proc_lwp_f
 688 is a function pointer type that is used with the
 689 .Fn Plwp_iter
 690 function. It is defined as
 691 .Sy typedef
 692 .Ft int
 693 .Fo proc_lwp_f
 694 .Fa "void *"
 695 .Fa "const lwpstatus_t *"
 696 .Fc .
 697 The first argument is a pointer to an argument that the user specifies,
 698 while the second has the thread's status information and is defined in
 699 .Xr proc 4 .
 700 For additional information on using this type, see
 701 .Xr Plwp_iter 3PROC .
 702 .Pp
 703 .Sy proc_lwp_all_f
 704 .Pp
 705 The
 706 .Sy proc_lwp_all_f
 707 is a function pointer type that is used with the
 708 .Fn Plwp_iter_all
 709 function. It is defined as
 710 .Sy typedef
 711 .Ft int
 712 .Fo proc_lwp_all_f
 713 .Fa "void *"
 714 .Fa "const lwpstatus_t *"
 715 .Fa "const lwpsinfo_t *"
 716 .Fc .
 717 The first argument is a pointer to an argument that the user specifies.
 718 The second and third arguments contain the thread's status and
 719 thread-specific
 720 .Xr ps 1
 721 information respectively. Both structures are defined in
 722 .Xr proc 4 .
 723 For additional information on using this type, see
 724 .Xr Plwp_iter_all 3PROC .
 725 .Pp
 726 .Sy proc_walk_f
 727 .Pp
 728 The
 729 .Sy proc_walk_f
 730 is a function pointer type that is used with the
 731 .Fn proc_walk
 732 function. It is defined as
 733 .Sy typedef
 734 .Ft int
 735 .Fo proc_walk_f
 736 .Fa "psinfo_t *"
 737 .Fa "lwpsinfo_t *"
 738 .Fa "void *"
 739 .Fc .
 740 The first argument contains the process
 741 .Xr ps 1
 742 information and the second argument contains the representative thread's
 743 .Xr ps 1
 744 information. Both structures are defined in
 745 .Xr proc 4 .
 746 The final argument is a pointer to an argument that the user specifies.
 747 For more information on using this, see
 748 .Xr proc_walk 3PROC .
 749 .Pp
 750 .Sy proc_map_f
 751 .Pp
 752 The
 753 .Sy proc_map_f
 754 is a function pointer type that is used with the
 755 .Fn Pmapping_iter ,
 756 .Fn Pmapping_iter_resolved ,
 757 .Fn Pobject_iter ,
 758 and
 759 .Fn Pobject_iter_resolved
 760 functions. It is defined as
 761 .Sy typedef
 762 .Ft int
 763 .Fo proc_map_f
 764 .Fa "void *"
 765 .Fa "const prmap_t *"
 766 .Fa "const char *"
 767 .Fc .
 768 The first argument is a pointer to an argument that the user specifies.
 769 The second argument is describes the mapping information and is defined
 770 in
 771 .Xr proc 4 .
 772 The final argument contains the name of the mapping or object file in
 773 question. For additional information on using this type, see
 774 .Xr Pmapping_iter 3PROC .
 775 .Pp
 776 .Sy proc_env_f
 777 .Pp
 778 The
 779 .Sy proc_env_f
 780 is a function pointer type that is used with the
 781 .Fn Penv_iter
 782 function. It is defined as
 783 .Sy typedef
 784 .Ft int
 785 .Fo proc_env_f
 786 .Fa "void *"
 787 .Fa "struct ps_prochandle *"
 788 .Fa "uintptr_t"
 789 .Fa "const char *"
 790 .Fc .
 791 The first argument is a pointer to an argument that the user specifies.
 792 The second argument is a pointer to the
 793 .Sy struct ps_prochandle
 794 that the callback was passed to. The third argument is the address of
 795 the environment variable in the process. The fourth argument is the
 796 environment variable. Values in the environment follow the convention of
 797 the form
 798 .Em variable=value .
 799 For more information on environment variables see
 800 .Xr exec 2
 801 and
 802 .Xr environ 5 .
 803 For additional information on using this type, see
 804 .Xr Penv_iter 3PROC .
 805 .Pp
 806 .Sy proc_sym_f
 807 .Pp
 808 The
 809 .Sy proc_sym_f
 810 is a function pointer type that is used with the
 811 .Fn Psmbol_iter ,
 812 .Fn Psymbol_iter_by_addr ,
 813 .Fn Psymbol_iter_by_name ,
 814 and
 815 .Fn Psymbol_iter_by_lmid
 816 functions. It is defined as
 817 .Sy typedef
 818 .Ft int
 819 .Fo proc_sym_f
 820 .Fa "void *"
 821 .Fa "const GElf_Sym *"
 822 .Fa "const char *"
 823 .Fc .
 824 The first argument is a pointer to an argument that the user supplies.
 825 The second argument is a pointer to the ELF symbol information in a
 826 32-bit and 64-bit neutral form. See
 827 .Xr elf 3ELF
 828 and
 829 .Xr gelf 3ELF
 830 for more information on it. The final argument points to a character
 831 string that has the name of the symbol. For additional information on
 832 using this type, see
 833 .Xr Psymbol_iter 3PROC ,
 834 .Xr Psymbol_iter_by_addr 3PROC ,
 835 .Xr Psymbol_iter_by_name 3PROC ,
 836 and
 837 .Xr Psymbol_iter_by_lmid 3PROC .
 838 .Pp
 839 .Sy proc_xsym_f
 840 .Pp
 841 The
 842 .Sy proc_xsym_f
 843 is a function pointer type that is used with the
 844 .Fn Pxsymbol_iter
 845 function. It is defined as
 846 .Sy typedef
 847 .Ft int
 848 .Fo proc_xsym_f
 849 .Fa "void *"
 850 .Fa "const GElf_Sym *"
 851 .Fa "const char *"
 852 .Fa "const prsyminfo_t *"
 853 .Fc .
 854 The first three arguments are identical to those of
 855 .Sy proc_sym_f .
 856 The final argument contains additional information about the symbol
 857 itself. The members of the
 858 .Sy prsyminfo_t
 859 are defined earlier in this section. For additional information on using
 860 this type, see
 861 .Xr Pxsymbol_iter 3PROC .
 862 .Pp
 863 .Sy proc_stack_f
 864 .Pp
 865 The
 866 .Sy proc_stack_f
 867 is a function pointer type that is used with the
 868 .Fn Pstack_iter
 869 function. It is defined as
 870 .Sy typedef
 871 .Ft int
 872 .Fo proc_stack_f
 873 .Fa "void *"
 874 .Fa "prgregset_t"
 875 .Fa "uint_t"
 876 .Fa "const long *"
 877 .Fc .
 878 The first argument is a pointer to an argument that the user specifies.
 879 The second argument's contents are platform specific. The registers that
 880 contain stack information, usually the stack pointer and frame pointer,
 881 will be filled in to point to an entry. The
 882 .Sy prgregset_t
 883 is defined in
 884 .Xr proc 4 .
 885 .Pp
 886 The third argument contains the number of arguments to the current stack
 887 frame and the fourth argument contains an array of addresses that
 888 correspond to the arguments to that stack function. The value of the
 889 third argument dictates the number of entries in the fourth argument.
 890 For additional information on using this type, see
 891 .Xr Pstack_iter 3PROC .
 892 .Pp
 893 .Sy proc_fdinfo_f
 894 .Pp
 895 The
 896 .Sy proc_fdinfo_f
 897 is a function pointer type that is used with the
 898 .Fn Pfdinfo_iter
 899 function. It is defined as
 900 .Sy typedef
 901 .Ft int
 902 .Fo proc_fdinfo_f
 903 .Fa "void *"
 904 .Fa "prfdinfo_t *"
 905 .Fc .
 906 The first argument is a pointer to an argument that the user specifies.
 907 The second argument contains information about an open file descriptor.
 908 The members of the
 909 .Sy prfdinfo_t
 910 are defined earlier in this section. For additional information on using
 911 this type, see
 912 .Xr Pfdinfo_iter 3PROC .
 913 .Sh PROGRAMMING NOTES
 914 When working with live processes, whether from the
 915 .Xr Pgrab
 916 or
 917 .Xr Pcreate
 918 family of functions, there are some additional considerations.
 919 Importantly, if a process calls any of the
 920 .Xr exec 2
 921 suite of functions, much of the state information that is obtained,
 922 particularly that about mappings in the process will be invalid. Callers
 923 must ensure that they call
 924 .Xr Preset_maps 3PROC
 925 when they hold a process handle across an exec. In addition, users of
 926 the library should familiarize themselves with the
 927 .Sy PROGRAMMING NOTES
 928 section of the
 929 .Xr proc 4
 930 manual page, which discusses issues of privileges and security.
 931 .Sh DEBUGGING
 932 The library provides a means for obtaining additional debugging
 933 information. The output itself is not part of the
 934 .Nm
 935 library's stable interface. Setting the environment variable
 936 .Ev LIBPROC_DEBUG
 937 to some value will print information to standard error. For example,
 938 .Ev LIBPROC_DEUBG Ns = Ns Em please .
 939 .Sh LOCKING
 940 Most functions operate on a handle to a process in the form of a
 941 .Vt "struct ps_prochandle *" .
 942 Unless otherwise indicated, the library does not provide any
 943 synchronization for different routines that are operating on the
 944 .Sy same
 945 .Nm
 946 library handle. It is up to the caller to ensure that only a single
 947 thread is using a handle at any given time. Multiple threads may call
 948 .Nm
 949 library routines at the same time as long as each thread is using a
 950 different handle.
 951 .Pp
 952 Each individual function notes its
 953 .Sy MT-Level
 954 section. The MT-Level of a routine that matches the above description
 955 will refer to this manual page. If it does not, then it refers to the
 956 standard attributes in
 957 .Xr attributes 5 .
 958 .Sh INTERFACE STABILITY
 959 .Sy Uncommitted
 960 .Pp
 961 While the library is considered an uncommitted interface, and is still
 962 evolving, changes that break compatibility have been uncommon and this
 963 trend is expected to continue. It is documented to allow consumers,
 964 whether part of illumos or outside of it, to understand the libarary and
 965 make use of it with the understanding that changes may occur which break
 966 both source and binary compatibility.
 967 .Sh SEE ALSO
 968 .Xr gcore 1 ,
 969 .Xr mdb 1 ,
 970 .Xr proc 1 ,
 971 .Xr ps 1 ,
 972 .Xr coreadm 1M ,
 973 .Xr exec 2 ,
 974 .Xr fcntl 2 ,
 975 .Xr stat 2 ,
 976 .Xr Intro 3 ,
 977 .Xr dlopen 3C ,
 978 .Xr elf 3ELF ,
 979 .Xr ctf 4 ,
 980 .Xr proc 4 ,
 981 .Xr attributes 5 ,
 982 .Xr environ 5 ,
 983 .Xr privileges 5
 984 .Pp
 985 .Rs
 986 .%T Linkers and Libraries Guide
 987 .Re
 988 .Pp
 989 .Xr Lfree 3PROC ,
 990 .Xr Lgrab 3PROC ,
 991 .Xr Lgrab_error 3PROC ,
 992 .Xr Pcreate 3PROC ,
 993 .Xr Pcreate_agent 3PROC ,
 994 .Xr Pcreate_callback 3PROC ,
 995 .Xr Pcreate_error 3PROC ,
 996 .Xr Pdestroy_agent 3PROC ,
 997 .Xr Pfgrab_core 3PROC ,
 998 .Xr Pfree 3PROC ,
 999 .Xr Pgrab 3PROC ,
1000 .Xr Pgrab_core 3PROC ,
1001 .Xr Pgrab_error 3PROC ,
1002 .Xr Pgrab_file 3PROC ,
1003 .Xr Pgrab_ops 3PROC ,
1004 .Xr Prelease 3PROC ,
1005 .Xr Preopen 3PROC ,
1006 .Xr Pxcreate 3PROC
1007 .Pp
1008 .Xr Paddr_to_ctf 3PROC ,
1009 .Xr Paddr_to_loadobj 3PROC ,
1010 .Xr Paddr_to_map 3PROC ,
1011 .Xr Paddr_to_text_map 3PROC ,
1012 .Xr Pasfd 3PROC ,
1013 .Xr Pclearfault 3PROC ,
1014 .Xr Pclearsig 3PROC ,
1015 .Xr Pcontent 3PROC ,
1016 .Xr Pcred 3PROC ,
1017 .Xr Pctlfd 3PROC ,
1018 .Xr Pdelbkpt 3PROC ,
1019 .Xr Pdelwapt 3PROC ,
1020 .Xr Pdstop 3PROC ,
1021 .Xr Pexecname 3PROC ,
1022 .Xr Pfault 3PROC ,
1023 .Xr Pfgcore 3PROC ,
1024 .Xr Pgcore 3PROC ,
1025 .Xr Pgetareg 3PROC ,
1026 .Xr Pgetauxval 3PROC ,
1027 .Xr Pgetauxvec 3PROC ,
1028 .Xr Pgetenv 3PROC ,
1029 .Xr Pisprocdir 3PROC ,
1030 .Xr Pissyscall_prev 3PROC ,
1031 .Xr Plmid 3PROC ,
1032 .Xr Plmid_to_loadobj 3PROC ,
1033 .Xr Plmid_to_map 3PROC ,
1034 .Xr Plookup_by_addr 3PROC ,
1035 .Xr Plookup_by_name 3PROC ,
1036 .Xr Plwp_alt_stack 3PROC ,
1037 .Xr Plwp_getfpregs 3PROC ,
1038 .Xr Plwp_getpsinfo 3PROC ,
1039 .Xr Plwp_getregs 3PROC ,
1040 .Xr Plwp_getspymaster 3PROC ,
1041 .Xr Plwp_main_stack 3PROC ,
1042 .Xr Plwp_setfpregs 3PROC ,
1043 .Xr Plwp_setregs 3PROC ,
1044 .Xr Plwp_stack 3PROC ,
1045 .Xr Pname_to_ctf 3PROC ,
1046 .Xr Pname_to_loadobj 3PROC ,
1047 .Xr Pname_to_map 3PROC ,
1048 .Xr Pobjname 3PROC ,
1049 .Xr Pobjname_resolved 3PROC ,
1050 .Xr Pplatform 3PROC ,
1051 .Xr Ppltdest 3PROC ,
1052 .Xr Ppriv 3PROC ,
1053 .Xr Ppsinfo 3PROC ,
1054 .Xr Pputareg 3PROC ,
1055 .Xr Prd_agent 3PROC ,
1056 .Xr Pread 3PROC ,
1057 .Xr Pread_string 3PROC ,
1058 .Xr Preset_maps 3PROC ,
1059 .Xr Psecflags 3PROC ,
1060 .Xr Psetbkpt 3PROC ,
1061 .Xr Psetcred 3PROC ,
1062 .Xr Psetfault 3PROC ,
1063 .Xr Psetflags 3PROC ,
1064 .Xr Psetpriv 3PROC ,
1065 .Xr Psetrun 3PROC ,
1066 .Xr Psetsignal 3PROC ,
1067 .Xr Psetsysentry 3PROC ,
1068 .Xr Psetsysexit 3PROC ,
1069 .Xr Psetwapt 3PROC ,
1070 .Xr Psetzoneid 3PROC ,
1071 .Xr Psignal 3PROC ,
1072 .Xr Pstate 3PROC ,
1073 .Xr Pstatus 3PROC ,
1074 .Xr Pstop 3PROC ,
1075 .Xr Pstopstatus 3PROC ,
1076 .Xr Psync 3PROC ,
1077 .Xr Psysentry 3PROC ,
1078 .Xr Psysexit 3PROC ,
1079 .Xr Puname 3PROC ,
1080 .Xr Punsetflags 3PROC ,
1081 .Xr Pupdate_maps 3PROC ,
1082 .Xr Pupdate_syms 3PROC ,
1083 .Xr Pwait 3PROC ,
1084 .Xr Pwrite 3PROC ,
1085 .Xr Pxecbkpt 3PROC ,
1086 .Xr Pxecwapt 3PROC ,
1087 .Xr Pxlookup_by_addr 3PROC ,
1088 .Xr Pxlookup_by_addr_resolved 3PROC ,
1089 .Xr Pxlookup_by_name 3PROC ,
1090 .Xr Pzonename 3PROC ,
1091 .Xr Pzonepath 3PROC ,
1092 .Xr Pzoneroot 3PROC
1093 .Pp
1094 .Xr Lalt_stack 3PROC ,
1095 .Xr Lclearfault 3PROC ,
1096 .Xr Lclearsig 3PROC ,
1097 .Xr Lctlfd 3PROC ,
1098 .Xr Ldstop 3PROC ,
1099 .Xr Lgetareg 3PROC ,
1100 .Xr Lmain_stack 3PROC ,
1101 .Xr Lprochandle 3PROC ,
1102 .Xr Lpsinfo 3PROC ,
1103 .Xr Lputareg 3PROC ,
1104 .Xr Lsetrun 3PROC ,
1105 .Xr Lstack 3PROC ,
1106 .Xr Lstate 3PROC ,
1107 .Xr Lstatus 3PROC ,
1108 .Xr Lstop 3PROC ,
1109 .Xr Lsync 3PROC ,
1110 .Xr Lwait 3PROC ,
1111 .Xr Lxecbkpt 3PROC ,
1112 .Xr Lxecwapt 3PROC
1113 .Pp
1114 .Xr pr_access 3PROC ,
1115 .Xr pr_close 3PROC ,
1116 .Xr pr_creat 3PROC ,
1117 .Xr pr_door_info 3PROC ,
1118 .Xr pr_exit 3PROC ,
1119 .Xr pr_fcntl 3PROC ,
1120 .Xr pr_fstat 3PROC ,
1121 .Xr pr_fstat64 3PROC ,
1122 .Xr pr_fstatvfs 3PROC ,
1123 .Xr pr_getitimer 3PROC ,
1124 .Xr pr_getpeername 3PROC ,
1125 .Xr pr_getpeerucred 3PROC ,
1126 .Xr pr_getprojid 3PROC ,
1127 .Xr pr_getrctl 3PROC ,
1128 .Xr pr_getrlimit 3PROC ,
1129 .Xr pr_getrlimit64 3PROC ,
1130 .Xr pr_getsockname 3PROC ,
1131 .Xr pr_getsockopt 3PROC ,
1132 .Xr pr_gettaskid 3PROC ,
1133 .Xr pr_getzoneid 3PROC ,
1134 .Xr pr_ioctl 3PROC ,
1135 .Xr pr_link 3PROC ,
1136 .Xr pr_llseek 3PROC ,
1137 .Xr pr_lseek 3PROC ,
1138 .Xr pr_lstat 3PROC ,
1139 .Xr pr_lstat64 3PROC ,
1140 .Xr pr_memcntl 3PROC ,
1141 .Xr pr_meminfo 3PROC ,
1142 .Xr pr_mmap 3PROC ,
1143 .Xr pr_munmap 3PROC ,
1144 .Xr pr_open 3PROC ,
1145 .Xr pr_processor_bind 3PROC ,
1146 .Xr pr_rename 3PROC ,
1147 .Xr pr_setitimer 3PROC ,
1148 .Xr pr_setrctl 3PROC ,
1149 .Xr pr_setrlimit 3PROC ,
1150 .Xr pr_setrlimit64 3PROC ,
1151 .Xr pr_settaskid 3PROC ,
1152 .Xr pr_sigaction 3PROC ,
1153 .Xr pr_stat 3PROC ,
1154 .Xr pr_stat64 3PROC ,
1155 .Xr pr_statvfs 3PROC ,
1156 .Xr pr_unlink 3PROC ,
1157 .Xr pr_waitid 3PROC ,
1158 .Pp
1159 .Xr Penv_iter 3PROC ,
1160 .Xr Plwp_iter 3PROC ,
1161 .Xr Plwp_iter_all 3PROC ,
1162 .Xr Pmapping_iter 3PROC ,
1163 .Xr Pmapping_iter_resolved 3PROC ,
1164 .Xr Pobject_iter 3PROC ,
1165 .Xr Pobject_iter_resolved 3PROC ,
1166 .Xr Pstack_iter 3PROC ,
1167 .Xr Psymbol_iter 3PROC ,
1168 .Xr Psymbol_iter_by_addr 3PROC ,
1169 .Xr Psymbol_iter_by_lmid 3PROC ,
1170 .Xr Psymbol_iter_by_name 3PROC ,
1171 .Xr Pxsymbol_iter 3PROC ,
1172 .Xr Pfdinfo_iter 3PROC
1173 .Pp
1174 .Xr Perror_printf 3PROC ,
1175 .Xr proc_arg_grab 3PROC ,
1176 .Xr proc_arg_psinfo 3PROC ,
1177 .Xr proc_arg_xgrab 3PROC ,
1178 .Xr proc_arg_xpsinfo 3PROC ,
1179 .Xr proc_content2str 3PROC ,
1180 .Xr proc_finistdio 3PROC ,
1181 .Xr proc_fltname 3PROC ,
1182 .Xr proc_fltset2str 3PROC ,
1183 .Xr proc_flushstdio 3PROC ,
1184 .Xr proc_get_auxv 3PROC ,
1185 .Xr proc_get_cred 3PROC ,
1186 .Xr proc_get_priv 3PROC ,
1187 .Xr proc_get_psinfo 3PROC ,
1188 .Xr proc_get_status 3PROC ,
1189 .Xr proc_initstdio 3PROC ,
1190 .Xr proc_lwp_in_set 3PROC ,
1191 .Xr proc_lwp_range_valid 3PROC ,
1192 .Xr proc_signame 3PROC ,
1193 .Xr proc_sigset2str 3PROC ,
1194 .Xr proc_str2content 3PROC ,
1195 .Xr proc_str2flt 3PROC ,
1196 .Xr proc_str2fltset 3PROC ,
1197 .Xr proc_str2sig 3PROC ,
1198 .Xr proc_str2sigset 3PROC ,
1199 .Xr proc_str2sys 3PROC ,
1200 .Xr proc_str2sysset 3PROC ,
1201 .Xr proc_sysname 3PROC ,
1202 .Xr proc_sysset2str 3PROC ,
1203 .Xr proc_unctrl_psinfo 3PROC ,
1204 .Xr proc_walk 3PROC
1205 .Pp
1206 .Xr Pldt 3PROC ,
1207 .Xr proc_get_ldt 3PROC ,
1208 .Pp
1209 .Xr Plwp_getgwindows 3PROC ,
1210 .Xr Plwp_getxregs 3PROC ,
1211 .Xr Plwp_setxregs 3PROC ,
1212 .Pp
1213 .Xr Plwp_getasrs 3PROC ,
1214 .Xr Plwp_setasrs 3PROC