/* * 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. */ #ifndef _DT_IMPL_H #define _DT_IMPL_H #pragma ident "%Z%%M% %I% %E% SMI" #include <sys/param.h> #include <sys/objfs.h> #include <setjmp.h> #include <libctf.h> #include <dtrace.h> #include <gelf.h> #ifdef __cplusplus extern "C" { #endif #include <dt_parser.h> #include <dt_regset.h> #include <dt_inttab.h> #include <dt_strtab.h> #include <dt_ident.h> #include <dt_list.h> #include <dt_decl.h> #include <dt_as.h> #include <dt_proc.h> #include <dt_dof.h> #include <dt_pcb.h> struct dt_module; /* see below */ struct dt_pfdict; /* see <dt_printf.h> */ struct dt_arg; /* see below */ struct dt_provider; /* see <dt_provider.h> */ struct dt_xlator; /* see <dt_xlator.h> */ typedef struct dt_intrinsic { const char *din_name; /* string name of the intrinsic type */ ctf_encoding_t din_data; /* integer or floating-point CTF encoding */ uint_t din_kind; /* CTF type kind to instantiate */ } dt_intrinsic_t; typedef struct dt_typedef { const char *dty_src; /* string name of typedef source type */ const char *dty_dst; /* string name of typedef destination type */ } dt_typedef_t; typedef struct dt_intdesc { const char *did_name; /* string name of the integer type */ ctf_file_t *did_ctfp; /* CTF container for this type reference */ ctf_id_t did_type; /* CTF type reference for this type */ uintmax_t did_limit; /* maximum positive value held by type */ } dt_intdesc_t; typedef struct dt_modops { uint_t (*do_syminit)(struct dt_module *); void (*do_symsort)(struct dt_module *); GElf_Sym *(*do_symname)(struct dt_module *, const char *, GElf_Sym *, uint_t *); GElf_Sym *(*do_symaddr)(struct dt_module *, GElf_Addr, GElf_Sym *, uint_t *); } dt_modops_t; typedef struct dt_arg { int da_ndx; /* index of this argument */ int da_mapping; /* mapping of argument indices to arguments */ ctf_id_t da_type; /* type of argument */ ctf_file_t *da_ctfp; /* CTF container for type */ dt_ident_t *da_xlator; /* translator, if any */ struct dt_arg *da_next; /* next argument */ } dt_arg_t; typedef struct dt_sym { uint_t ds_symid; /* id of corresponding symbol */ uint_t ds_next; /* index of next element in hash chain */ } dt_sym_t; typedef struct dt_module { dt_list_t dm_list; /* list forward/back pointers */ char dm_name[DTRACE_MODNAMELEN]; /* string name of module */ char dm_file[MAXPATHLEN]; /* file path of module (if any) */ struct dt_module *dm_next; /* pointer to next module in hash chain */ const dt_modops_t *dm_ops; /* pointer to data model's ops vector */ Elf *dm_elf; /* libelf handle for module object */ objfs_info_t dm_info; /* object filesystem private info */ ctf_sect_t dm_symtab; /* symbol table for module */ ctf_sect_t dm_strtab; /* string table for module */ ctf_sect_t dm_ctdata; /* CTF data for module */ ctf_file_t *dm_ctfp; /* CTF container handle */ uint_t *dm_symbuckets; /* symbol table hash buckets (chain indices) */ dt_sym_t *dm_symchains; /* symbol table hash chains buffer */ void *dm_asmap; /* symbol pointers sorted by value */ uint_t dm_symfree; /* index of next free hash element */ uint_t dm_nsymbuckets; /* number of elements in bucket array */ uint_t dm_nsymelems; /* number of elements in hash table */ uint_t dm_asrsv; /* actual reserved size of dm_asmap */ uint_t dm_aslen; /* number of entries in dm_asmap */ uint_t dm_flags; /* module flags (see below) */ int dm_modid; /* modinfo(1M) module identifier */ GElf_Addr dm_text_va; /* virtual address of text section */ GElf_Xword dm_text_size; /* size in bytes of text section */ GElf_Addr dm_data_va; /* virtual address of data section */ GElf_Xword dm_data_size; /* size in bytes of data section */ GElf_Addr dm_bss_va; /* virtual address of BSS */ GElf_Xword dm_bss_size; /* size in bytes of BSS */ dt_idhash_t *dm_extern; /* external symbol definitions */ } dt_module_t; #define DT_DM_LOADED 0x1 /* module symbol and type data is loaded */ #define DT_DM_KERNEL 0x2 /* module is associated with a kernel object */ #define DT_DM_PRIMARY 0x4 /* module is a krtld primary kernel object */ typedef struct dt_provmod { char *dp_name; /* name of provider module */ struct dt_provmod *dp_next; /* next module */ } dt_provmod_t; typedef struct dt_ahashent { struct dt_ahashent *dtahe_prev; /* prev on hash chain */ struct dt_ahashent *dtahe_next; /* next on hash chain */ struct dt_ahashent *dtahe_prevall; /* prev on list of all */ struct dt_ahashent *dtahe_nextall; /* next on list of all */ uint64_t dtahe_hashval; /* hash value */ size_t dtahe_size; /* size of data */ dtrace_aggdata_t dtahe_data; /* data */ void (*dtahe_aggregate)(int64_t *, int64_t *, size_t); /* function */ } dt_ahashent_t; typedef struct dt_ahash { dt_ahashent_t **dtah_hash; /* hash table */ dt_ahashent_t *dtah_all; /* list of all elements */ size_t dtah_size; /* size of hash table */ } dt_ahash_t; typedef struct dt_aggregate { dtrace_bufdesc_t dtat_buf; /* buf aggregation snapshot */ int dtat_flags; /* aggregate flags */ processorid_t dtat_ncpus; /* number of CPUs in aggregate */ processorid_t *dtat_cpus; /* CPUs in aggregate */ processorid_t dtat_ncpu; /* size of dtat_cpus array */ processorid_t dtat_maxcpu; /* maximum number of CPUs */ dt_ahash_t dtat_hash; /* aggregate hash table */ } dt_aggregate_t; typedef struct dt_print_aggdata { dtrace_hdl_t *dtpa_dtp; /* pointer to libdtrace handle */ dtrace_aggvarid_t dtpa_id; /* aggregation variable of interest */ FILE *dtpa_fp; /* file pointer */ int dtpa_allunprint; /* print only unprinted aggregations */ } dt_print_aggdata_t; typedef struct dt_dirpath { dt_list_t dir_list; /* linked-list forward/back pointers */ char *dir_path; /* directory pathname */ } dt_dirpath_t; typedef uint32_t dt_version_t; /* encoded version (see below) */ struct dtrace_hdl { const dtrace_vector_t *dt_vector; /* library vector, if vectored open */ void *dt_varg; /* vector argument, if vectored open */ dtrace_conf_t dt_conf; /* DTrace driver configuration profile */ char dt_errmsg[BUFSIZ]; /* buffer for formatted syntax error msgs */ const char *dt_errtag; /* tag used with last call to dt_set_errmsg() */ dt_pcb_t *dt_pcb; /* pointer to current parsing control block */ ulong_t dt_gen; /* compiler generation number */ dt_list_t dt_programs; /* linked list of dtrace_prog_t's */ dt_list_t dt_xlators; /* linked list of dt_xlator_t's */ struct dt_xlator **dt_xlatormap; /* dt_xlator_t's indexed by dx_id */ id_t dt_xlatorid; /* next dt_xlator_t id to assign */ dt_ident_t *dt_externs; /* linked list of external symbol identifiers */ dt_idhash_t *dt_macros; /* hash table of macro variable identifiers */ dt_idhash_t *dt_aggs; /* hash table of aggregation identifiers */ dt_idhash_t *dt_globals; /* hash table of global identifiers */ dt_idhash_t *dt_tls; /* hash table of thread-local identifiers */ dt_list_t dt_modlist; /* linked list of dt_module_t's */ dt_module_t **dt_mods; /* hash table of dt_module_t's */ uint_t dt_modbuckets; /* number of module hash buckets */ uint_t dt_nmods; /* number of modules in hash and list */ dt_provmod_t *dt_provmod; /* linked list of provider modules */ dt_module_t *dt_exec; /* pointer to executable module */ dt_module_t *dt_rtld; /* pointer to run-time linker module */ dt_module_t *dt_cdefs; /* pointer to C dynamic type module */ dt_module_t *dt_ddefs; /* pointer to D dynamic type module */ dt_list_t dt_provlist; /* linked list of dt_provider_t's */ struct dt_provider **dt_provs; /* hash table of dt_provider_t's */ uint_t dt_provbuckets; /* number of provider hash buckets */ uint_t dt_nprovs; /* number of providers in hash and list */ dt_proc_hash_t *dt_procs; /* hash table of grabbed process handles */ dt_intdesc_t dt_ints[6]; /* cached integer type descriptions */ ctf_id_t dt_type_func; /* cached CTF identifier for function type */ ctf_id_t dt_type_fptr; /* cached CTF identifier for function pointer */ ctf_id_t dt_type_str; /* cached CTF identifier for string type */ ctf_id_t dt_type_dyn; /* cached CTF identifier for <DYN> type */ ctf_id_t dt_type_stack; /* cached CTF identifier for stack type */ ctf_id_t dt_type_symaddr; /* cached CTF identifier for _symaddr type */ ctf_id_t dt_type_usymaddr; /* cached CTF ident. for _usymaddr type */ size_t dt_maxprobe; /* max enabled probe ID */ dtrace_eprobedesc_t **dt_edesc; /* enabled probe descriptions */ dtrace_probedesc_t **dt_pdesc; /* probe descriptions for enabled prbs */ size_t dt_maxagg; /* max aggregation ID */ dtrace_aggdesc_t **dt_aggdesc; /* aggregation descriptions */ int dt_maxformat; /* max format ID */ void **dt_formats; /* pointer to format array */ dt_aggregate_t dt_aggregate; /* aggregate */ dtrace_bufdesc_t dt_buf; /* staging buffer */ struct dt_pfdict *dt_pfdict; /* dictionary of printf conversions */ dt_version_t dt_vmax; /* optional ceiling on program API binding */ dtrace_attribute_t dt_amin; /* optional floor on program attributes */ char *dt_cpp_path; /* pathname of cpp(1) to invoke if needed */ char **dt_cpp_argv; /* argument vector for exec'ing cpp(1) */ int dt_cpp_argc; /* count of initialized cpp(1) arguments */ int dt_cpp_args; /* size of dt_cpp_argv[] array */ char *dt_ld_path; /* pathname of ld(1) to invoke if needed */ dt_list_t dt_lib_path; /* linked-list forming library search path */ uint_t dt_lazyload; /* boolean: set via -xlazyload */ uint_t dt_droptags; /* boolean: set via -xdroptags */ uint_t dt_active; /* boolean: set once tracing is active */ uint_t dt_stopped; /* boolean: set once tracing is stopped */ processorid_t dt_beganon; /* CPU that executed BEGIN probe (if any) */ processorid_t dt_endedon; /* CPU that executed END probe (if any) */ uint_t dt_oflags; /* dtrace open-time options (see dtrace.h) */ uint_t dt_cflags; /* dtrace compile-time options (see dtrace.h) */ uint_t dt_dflags; /* dtrace link-time options (see dtrace.h) */ uint_t dt_prcmode; /* dtrace process create mode (see dt_proc.h) */ uint_t dt_linkmode; /* dtrace symbol linking mode (see below) */ uint_t dt_linktype; /* dtrace link output file type (see below) */ uint_t dt_xlatemode; /* dtrace translator linking mode (see below) */ uint_t dt_stdcmode; /* dtrace stdc compatibility mode (see below) */ uint_t dt_treedump; /* dtrace tree debug bitmap (see below) */ uint64_t dt_options[DTRACEOPT_MAX]; /* dtrace run-time options */ int dt_version; /* library version requested by client */ int dt_ctferr; /* error resulting from last CTF failure */ int dt_errno; /* error resulting from last failed operation */ int dt_fd; /* file descriptor for dtrace pseudo-device */ int dt_ftfd; /* file descriptor for fasttrap pseudo-device */ int dt_fterr; /* saved errno from failed open of dt_ftfd */ int dt_cdefs_fd; /* file descriptor for C CTF debugging cache */ int dt_ddefs_fd; /* file descriptor for D CTF debugging cache */ int dt_stdout_fd; /* file descriptor for saved stdout */ dtrace_handle_err_f *dt_errhdlr; /* error handler, if any */ void *dt_errarg; /* error handler argument */ dtrace_prog_t *dt_errprog; /* error handler program, if any */ dtrace_handle_drop_f *dt_drophdlr; /* drop handler, if any */ void *dt_droparg; /* drop handler argument */ dtrace_handle_proc_f *dt_prochdlr; /* proc handler, if any */ void *dt_procarg; /* proc handler argument */ dtrace_handle_setopt_f *dt_setopthdlr; /* setopt handler, if any */ void *dt_setoptarg; /* setopt handler argument */ dtrace_status_t dt_status[2]; /* status cache */ int dt_statusgen; /* current status generation */ hrtime_t dt_laststatus; /* last status */ hrtime_t dt_lastswitch; /* last switch of buffer data */ hrtime_t dt_lastagg; /* last snapshot of aggregation data */ char *dt_sprintf_buf; /* buffer for dtrace_sprintf() */ int dt_sprintf_buflen; /* length of dtrace_sprintf() buffer */ const char *dt_filetag; /* default filetag for dt_set_errmsg() */ char *dt_buffered_buf; /* buffer for buffered output */ size_t dt_buffered_offs; /* current offset into buffered buffer */ size_t dt_buffered_size; /* size of buffered buffer */ dtrace_handle_buffered_f *dt_bufhdlr; /* buffered handler, if any */ void *dt_bufarg; /* buffered handler argument */ dt_dof_t dt_dof; /* DOF generation buffers (see dt_dof.c) */ struct utsname dt_uts; /* uname(2) information for system */ }; /* * Values for the user arg of the ECB. */ #define DT_ECB_DEFAULT 0 #define DT_ECB_ERROR 1 /* * Values for the dt_linkmode property, which is used by the assembler when * processing external symbol references. User can set using -xlink=<mode>. */ #define DT_LINK_KERNEL 0 /* kernel syms static, user syms dynamic */ #define DT_LINK_PRIMARY 1 /* primary kernel syms static, others dynamic */ #define DT_LINK_DYNAMIC 2 /* all symbols dynamic */ #define DT_LINK_STATIC 3 /* all symbols static */ /* * Values for the dt_linktype property, which is used by dtrace_program_link() * to determine the type of output file that is desired by the client. */ #define DT_LTYP_ELF 0 /* produce ELF containing DOF */ #define DT_LTYP_DOF 1 /* produce stand-alone DOF */ /* * Values for the dt_xlatemode property, which is used to determine whether * references to dynamic translators are permitted. Set using -xlate=<mode>. */ #define DT_XL_STATIC 0 /* require xlators to be statically defined */ #define DT_XL_DYNAMIC 1 /* produce references to dynamic translators */ /* * Values for the dt_stdcmode property, which is used by the compiler when * running cpp to determine the presence and setting of the __STDC__ macro. */ #define DT_STDC_XA 0 /* ISO C + K&R C compat w/o ISO: __STDC__=0 */ #define DT_STDC_XC 1 /* Strict ISO C: __STDC__=1 */ #define DT_STDC_XS 2 /* K&R C: __STDC__ not defined */ #define DT_STDC_XT 3 /* ISO C + K&R C compat with ISO: __STDC__=0 */ /* * Macro to test whether a given pass bit is set in the dt_treedump bit-vector. * If the bit for pass 'p' is set, the D compiler displays the parse tree for * the program by printing it to stderr at the end of compiler pass 'p'. */ #define DT_TREEDUMP_PASS(dtp, p) ((dtp)->dt_treedump & (1 << ((p) - 1))) /* * Macros for accessing the cached CTF container and type ID for the common * types "int", "string", and <DYN>, which we need to use frequently in the D * compiler. The DT_INT_* macro relies upon "int" being at index 0 in the * _dtrace_ints_* tables in dt_open.c; the others are also set up there. */ #define DT_INT_CTFP(dtp) ((dtp)->dt_ints[0].did_ctfp) #define DT_INT_TYPE(dtp) ((dtp)->dt_ints[0].did_type) #define DT_FUNC_CTFP(dtp) ((dtp)->dt_ddefs->dm_ctfp) #define DT_FUNC_TYPE(dtp) ((dtp)->dt_type_func) #define DT_FPTR_CTFP(dtp) ((dtp)->dt_ddefs->dm_ctfp) #define DT_FPTR_TYPE(dtp) ((dtp)->dt_type_fptr) #define DT_STR_CTFP(dtp) ((dtp)->dt_ddefs->dm_ctfp) #define DT_STR_TYPE(dtp) ((dtp)->dt_type_str) #define DT_DYN_CTFP(dtp) ((dtp)->dt_ddefs->dm_ctfp) #define DT_DYN_TYPE(dtp) ((dtp)->dt_type_dyn) #define DT_STACK_CTFP(dtp) ((dtp)->dt_ddefs->dm_ctfp) #define DT_STACK_TYPE(dtp) ((dtp)->dt_type_stack) #define DT_SYMADDR_CTFP(dtp) ((dtp)->dt_ddefs->dm_ctfp) #define DT_SYMADDR_TYPE(dtp) ((dtp)->dt_type_symaddr) #define DT_USYMADDR_CTFP(dtp) ((dtp)->dt_ddefs->dm_ctfp) #define DT_USYMADDR_TYPE(dtp) ((dtp)->dt_type_usymaddr) /* * Actions and subroutines are both DT_NODE_FUNC nodes; to avoid confusing * an action for a subroutine (or vice versa), we assure that the DT_ACT_* * constants and the DIF_SUBR_* constants occupy non-overlapping ranges by * starting the DT_ACT_* constants at DIF_SUBR_MAX + 1. */ #define DT_ACT_BASE DIF_SUBR_MAX + 1 #define DT_ACT(n) (DT_ACT_BASE + (n)) #define DT_ACT_PRINTF DT_ACT(0) /* printf() action */ #define DT_ACT_TRACE DT_ACT(1) /* trace() action */ #define DT_ACT_TRACEMEM DT_ACT(2) /* tracemem() action */ #define DT_ACT_STACK DT_ACT(3) /* stack() action */ #define DT_ACT_STOP DT_ACT(4) /* stop() action */ #define DT_ACT_BREAKPOINT DT_ACT(5) /* breakpoint() action */ #define DT_ACT_PANIC DT_ACT(6) /* panic() action */ #define DT_ACT_SPECULATE DT_ACT(7) /* speculate() action */ #define DT_ACT_COMMIT DT_ACT(8) /* commit() action */ #define DT_ACT_DISCARD DT_ACT(9) /* discard() action */ #define DT_ACT_CHILL DT_ACT(10) /* chill() action */ #define DT_ACT_EXIT DT_ACT(11) /* exit() action */ #define DT_ACT_USTACK DT_ACT(12) /* ustack() action */ #define DT_ACT_PRINTA DT_ACT(13) /* printa() action */ #define DT_ACT_RAISE DT_ACT(14) /* raise() action */ #define DT_ACT_CLEAR DT_ACT(15) /* clear() action */ #define DT_ACT_NORMALIZE DT_ACT(16) /* normalize() action */ #define DT_ACT_DENORMALIZE DT_ACT(17) /* denormalize() action */ #define DT_ACT_TRUNC DT_ACT(18) /* trunc() action */ #define DT_ACT_SYSTEM DT_ACT(19) /* system() action */ #define DT_ACT_JSTACK DT_ACT(20) /* jstack() action */ #define DT_ACT_FTRUNCATE DT_ACT(21) /* ftruncate() action */ #define DT_ACT_FREOPEN DT_ACT(22) /* freopen() action */ #define DT_ACT_SYM DT_ACT(23) /* sym()/func() actions */ #define DT_ACT_MOD DT_ACT(24) /* mod() action */ #define DT_ACT_USYM DT_ACT(25) /* usym()/ufunc() actions */ #define DT_ACT_UMOD DT_ACT(26) /* umod() action */ #define DT_ACT_UADDR DT_ACT(27) /* uaddr() action */ #define DT_ACT_SETOPT DT_ACT(28) /* setopt() action */ /* * Sentinel to tell freopen() to restore the saved stdout. This must not * be ever valid for opening for write access via freopen(3C), which of * course, "." never is. */ #define DT_FREOPEN_RESTORE "." #define EDT_BASE 1000 /* base value for libdtrace errnos */ enum { EDT_VERSION = EDT_BASE, /* client is requesting unsupported version */ EDT_VERSINVAL, /* version string is invalid or overflows */ EDT_VERSUNDEF, /* requested API version is not defined */ EDT_VERSREDUCED, /* requested API version has been reduced */ EDT_CTF, /* libctf called failed (dt_ctferr has more) */ EDT_COMPILER, /* error in D program compilation */ EDT_NOREG, /* register allocation failure */ EDT_NOTUPREG, /* tuple register allocation failure */ EDT_NOMEM, /* memory allocation failure */ EDT_INT2BIG, /* integer limit exceeded */ EDT_STR2BIG, /* string limit exceeded */ EDT_NOMOD, /* unknown module name */ EDT_NOPROV, /* unknown provider name */ EDT_NOPROBE, /* unknown probe name */ EDT_NOSYM, /* unknown symbol name */ EDT_NOSYMADDR, /* no symbol corresponds to address */ EDT_NOTYPE, /* unknown type name */ EDT_NOVAR, /* unknown variable name */ EDT_NOAGG, /* unknown aggregation name */ EDT_BADSCOPE, /* improper use of type name scoping operator */ EDT_BADSPEC, /* overspecified probe description */ EDT_BADSPCV, /* bad macro variable in probe description */ EDT_BADID, /* invalid probe identifier */ EDT_NOTLOADED, /* module is not currently loaded */ EDT_NOCTF, /* module does not contain any CTF data */ EDT_DATAMODEL, /* module and program data models don't match */ EDT_DIFVERS, /* library has newer DIF version than driver */ EDT_BADAGG, /* unrecognized aggregating action */ EDT_FIO, /* file i/o error */ EDT_DIFINVAL, /* invalid DIF program */ EDT_DIFSIZE, /* invalid DIF size */ EDT_DIFFAULT, /* failed to copyin DIF program */ EDT_BADPROBE, /* bad probe description */ EDT_BADPGLOB, /* bad probe description globbing pattern */ EDT_NOSCOPE, /* declaration scope stack underflow */ EDT_NODECL, /* declaration stack underflow */ EDT_DMISMATCH, /* record list does not match statement */ EDT_DOFFSET, /* record data offset error */ EDT_DALIGN, /* record data alignment error */ EDT_BADOPTNAME, /* invalid dtrace_setopt option name */ EDT_BADOPTVAL, /* invalid dtrace_setopt option value */ EDT_BADOPTCTX, /* invalid dtrace_setopt option context */ EDT_CPPFORK, /* failed to fork preprocessor */ EDT_CPPEXEC, /* failed to exec preprocessor */ EDT_CPPENT, /* preprocessor not found */ EDT_CPPERR, /* unknown preprocessor error */ EDT_SYMOFLOW, /* external symbol table overflow */ EDT_ACTIVE, /* operation illegal when tracing is active */ EDT_DESTRUCTIVE, /* destructive actions not allowed */ EDT_NOANON, /* no anonymous tracing state */ EDT_ISANON, /* can't claim anon state and enable probes */ EDT_ENDTOOBIG, /* END enablings exceed size of prncpl buffer */ EDT_NOCONV, /* failed to load type for printf conversion */ EDT_BADCONV, /* incomplete printf conversion */ EDT_BADERROR, /* invalid library ERROR action */ EDT_ERRABORT, /* abort due to error */ EDT_DROPABORT, /* abort due to drop */ EDT_DIRABORT, /* abort explicitly directed */ EDT_BADRVAL, /* invalid return value from callback */ EDT_BADNORMAL, /* invalid normalization */ EDT_BUFTOOSMALL, /* enabling exceeds size of buffer */ EDT_BADTRUNC, /* invalid truncation */ EDT_BUSY, /* device busy (active kernel debugger) */ EDT_ACCESS, /* insufficient privileges to use DTrace */ EDT_NOENT, /* dtrace device not available */ EDT_BRICKED, /* abort due to systemic unresponsiveness */ EDT_HARDWIRE, /* failed to load hard-wired definitions */ EDT_ELFVERSION, /* libelf is out-of-date w.r.t libdtrace */ EDT_NOBUFFERED, /* attempt to buffer output without handler */ EDT_UNSTABLE, /* description matched unstable set of probes */ EDT_BADSETOPT, /* invalid setopt library action */ EDT_BADSTACKPC, /* invalid stack program counter size */ EDT_BADAGGVAR, /* invalid aggregation variable identifier */ EDT_OVERSION /* client is requesting deprecated version */ }; /* * Interfaces for parsing and comparing DTrace attribute tuples, which describe * stability and architectural binding information. The dtrace_attribute_t * structure and associated constant definitions are found in <sys/dtrace.h>. */ extern dtrace_attribute_t dt_attr_min(dtrace_attribute_t, dtrace_attribute_t); extern dtrace_attribute_t dt_attr_max(dtrace_attribute_t, dtrace_attribute_t); extern char *dt_attr_str(dtrace_attribute_t, char *, size_t); extern int dt_attr_cmp(dtrace_attribute_t, dtrace_attribute_t); /* * Interfaces for parsing and handling DTrace version strings. Version binding * is a feature of the D compiler that is handled completely independently of * the DTrace kernel infrastructure, so the definitions are here in libdtrace. * Version strings are compiled into an encoded uint32_t which can be compared * using C comparison operators. Version definitions are found in dt_open.c. */ #define DT_VERSION_STRMAX 16 /* enough for "255.4095.4095\0" */ #define DT_VERSION_MAJMAX 0xFF /* maximum major version number */ #define DT_VERSION_MINMAX 0xFFF /* maximum minor version number */ #define DT_VERSION_MICMAX 0xFFF /* maximum micro version number */ #define DT_VERSION_NUMBER(M, m, u) \ ((((M) & 0xFF) << 24) | (((m) & 0xFFF) << 12) | ((u) & 0xFFF)) #define DT_VERSION_MAJOR(v) (((v) & 0xFF000000) >> 24) #define DT_VERSION_MINOR(v) (((v) & 0x00FFF000) >> 12) #define DT_VERSION_MICRO(v) ((v) & 0x00000FFF) extern char *dt_version_num2str(dt_version_t, char *, size_t); extern int dt_version_str2num(const char *, dt_version_t *); extern int dt_version_defined(dt_version_t); /* * Miscellaneous internal libdtrace interfaces. The definitions below are for * libdtrace routines that do not yet merit their own separate header file. */ extern char *dt_cpp_add_arg(dtrace_hdl_t *, const char *); extern char *dt_cpp_pop_arg(dtrace_hdl_t *); extern int dt_set_errno(dtrace_hdl_t *, int); extern void dt_set_errmsg(dtrace_hdl_t *, const char *, const char *, const char *, int, const char *, va_list); extern int dt_ioctl(dtrace_hdl_t *, int, void *); extern int dt_status(dtrace_hdl_t *, processorid_t); extern long dt_sysconf(dtrace_hdl_t *, int); extern ssize_t dt_write(dtrace_hdl_t *, int, const void *, size_t); extern int dt_printf(dtrace_hdl_t *, FILE *, const char *, ...); extern void *dt_zalloc(dtrace_hdl_t *, size_t); extern void *dt_alloc(dtrace_hdl_t *, size_t); extern void dt_free(dtrace_hdl_t *, void *); extern void dt_difo_free(dtrace_hdl_t *, dtrace_difo_t *); extern int dt_gmatch(const char *, const char *); extern char *dt_basename(char *); extern ulong_t dt_popc(ulong_t); extern ulong_t dt_popcb(const ulong_t *, ulong_t); extern int dt_buffered_enable(dtrace_hdl_t *); extern int dt_buffered_flush(dtrace_hdl_t *, dtrace_probedata_t *, const dtrace_recdesc_t *, const dtrace_aggdata_t *, uint32_t flags); extern void dt_buffered_disable(dtrace_hdl_t *); extern void dt_buffered_destroy(dtrace_hdl_t *); extern int dt_rw_read_held(pthread_rwlock_t *); extern int dt_rw_write_held(pthread_rwlock_t *); extern int dt_mutex_held(pthread_mutex_t *); #define DT_RW_READ_HELD(x) dt_rw_read_held(x) #define DT_RW_WRITE_HELD(x) dt_rw_write_held(x) #define DT_RW_LOCK_HELD(x) (DT_RW_READ_HELD(x) || DT_RW_WRITE_HELD(x)) #define DT_MUTEX_HELD(x) dt_mutex_held(x) extern int dt_options_load(dtrace_hdl_t *); extern void dt_dprintf(const char *, ...); extern void dt_setcontext(dtrace_hdl_t *, dtrace_probedesc_t *); extern void dt_endcontext(dtrace_hdl_t *); extern void dt_pragma(dt_node_t *); extern int dt_reduce(dtrace_hdl_t *, dt_version_t); extern void dt_cg(dt_pcb_t *, dt_node_t *); extern dtrace_difo_t *dt_as(dt_pcb_t *); extern void dt_dis(const dtrace_difo_t *, FILE *); extern int dt_aggregate_go(dtrace_hdl_t *); extern int dt_aggregate_init(dtrace_hdl_t *); extern void dt_aggregate_destroy(dtrace_hdl_t *); extern int dt_epid_lookup(dtrace_hdl_t *, dtrace_epid_t, dtrace_eprobedesc_t **, dtrace_probedesc_t **); extern void dt_epid_destroy(dtrace_hdl_t *); extern int dt_aggid_lookup(dtrace_hdl_t *, dtrace_aggid_t, dtrace_aggdesc_t **); extern void dt_aggid_destroy(dtrace_hdl_t *); extern void *dt_format_lookup(dtrace_hdl_t *, int); extern void dt_format_destroy(dtrace_hdl_t *); extern int dt_print_quantize(dtrace_hdl_t *, FILE *, const void *, size_t, uint64_t); extern int dt_print_lquantize(dtrace_hdl_t *, FILE *, const void *, size_t, uint64_t); extern int dt_print_agg(const dtrace_aggdata_t *, void *); extern int dt_handle(dtrace_hdl_t *, dtrace_probedata_t *); extern int dt_handle_liberr(dtrace_hdl_t *, const dtrace_probedata_t *, const char *); extern int dt_handle_cpudrop(dtrace_hdl_t *, processorid_t, dtrace_dropkind_t, uint64_t); extern int dt_handle_status(dtrace_hdl_t *, dtrace_status_t *, dtrace_status_t *); extern int dt_handle_setopt(dtrace_hdl_t *, dtrace_setoptdata_t *); extern dt_pcb_t *yypcb; /* pointer to current parser control block */ extern char yyintprefix; /* int token prefix for macros (+/-) */ extern char yyintsuffix[4]; /* int token suffix ([uUlL]*) */ extern int yyintdecimal; /* int token is decimal (1) or octal/hex (0) */ extern char yytext[]; /* lex input buffer */ extern int yylineno; /* lex line number */ extern int yydebug; /* lex debugging */ extern dt_node_t *yypragma; /* lex token list for control lines */ extern const dtrace_attribute_t _dtrace_maxattr; /* maximum attributes */ extern const dtrace_attribute_t _dtrace_defattr; /* default attributes */ extern const dtrace_attribute_t _dtrace_symattr; /* symbol ref attributes */ extern const dtrace_attribute_t _dtrace_typattr; /* type ref attributes */ extern const dtrace_attribute_t _dtrace_prvattr; /* provider attributes */ extern const dtrace_pattr_t _dtrace_prvdesc; /* provider attribute bundle */ extern const dt_version_t _dtrace_versions[]; /* array of valid versions */ extern const char *const _dtrace_version; /* current version string */ extern int _dtrace_strbuckets; /* number of hash buckets for strings */ extern int _dtrace_intbuckets; /* number of hash buckets for ints */ extern uint_t _dtrace_stkindent; /* default indent for stack/ustack */ extern uint_t _dtrace_pidbuckets; /* number of hash buckets for pids */ extern uint_t _dtrace_pidlrulim; /* number of proc handles to cache */ extern int _dtrace_debug; /* debugging messages enabled */ extern size_t _dtrace_bufsize; /* default dt_buf_create() size */ extern int _dtrace_argmax; /* default maximum probe arguments */ extern const char *_dtrace_libdir; /* default library directory */ extern const char *_dtrace_moddir; /* default kernel module directory */ #ifdef __cplusplus } #endif #endif /* _DT_IMPL_H */