/********************************************************************** * plperl.c - perl as a procedural language for PostgreSQL * * $PostgreSQL: pgsql/src/pl/plperl/plperl.c,v 1.175 2010/05/13 16:39:43 adunstan Exp $ * **********************************************************************/ #include "postgres.h" /* Defined by Perl */ #undef _ /* system stuff */ #include #include #include #include /* postgreSQL stuff */ #include "access/xact.h" #include "catalog/pg_language.h" #include "catalog/pg_proc.h" #include "catalog/pg_type.h" #include "commands/trigger.h" #include "executor/spi.h" #include "funcapi.h" #include "mb/pg_wchar.h" #include "miscadmin.h" #include "nodes/makefuncs.h" #include "parser/parse_type.h" #include "storage/ipc.h" #include "utils/builtins.h" #include "utils/fmgroids.h" #include "utils/guc.h" #include "utils/hsearch.h" #include "utils/lsyscache.h" #include "utils/memutils.h" #include "utils/syscache.h" #include "utils/typcache.h" /* define our text domain for translations */ #undef TEXTDOMAIN #define TEXTDOMAIN PG_TEXTDOMAIN("plperl") /* perl stuff */ #include "plperl.h" /* string literal macros defining chunks of perl code */ #include "perlchunks.h" /* defines PLPERL_SET_OPMASK */ #include "plperl_opmask.h" PG_MODULE_MAGIC; /********************************************************************** * The information we cache about loaded procedures **********************************************************************/ typedef struct plperl_proc_desc { char *proname; /* user name of procedure */ TransactionId fn_xmin; ItemPointerData fn_tid; bool fn_readonly; bool lanpltrusted; bool fn_retistuple; /* true, if function returns tuple */ bool fn_retisset; /* true, if function returns set */ bool fn_retisarray; /* true if function returns array */ Oid result_oid; /* Oid of result type */ FmgrInfo result_in_func; /* I/O function and arg for result type */ Oid result_typioparam; int nargs; FmgrInfo arg_out_func[FUNC_MAX_ARGS]; bool arg_is_rowtype[FUNC_MAX_ARGS]; SV *reference; } plperl_proc_desc; /* hash table entry for proc desc */ typedef struct plperl_proc_entry { char proc_name[NAMEDATALEN]; /* internal name, eg * __PLPerl_proc_39987 */ plperl_proc_desc *proc_data; } plperl_proc_entry; /* * The information we cache for the duration of a single call to a * function. */ typedef struct plperl_call_data { plperl_proc_desc *prodesc; FunctionCallInfo fcinfo; Tuplestorestate *tuple_store; TupleDesc ret_tdesc; AttInMetadata *attinmeta; MemoryContext tmp_cxt; } plperl_call_data; /********************************************************************** * The information we cache about prepared and saved plans **********************************************************************/ typedef struct plperl_query_desc { char qname[20]; void *plan; int nargs; Oid *argtypes; FmgrInfo *arginfuncs; Oid *argtypioparams; } plperl_query_desc; /* hash table entry for query desc */ typedef struct plperl_query_entry { char query_name[NAMEDATALEN]; plperl_query_desc *query_data; } plperl_query_entry; /********************************************************************** * Global data **********************************************************************/ typedef enum { INTERP_NONE, INTERP_HELD, INTERP_TRUSTED, INTERP_UNTRUSTED, INTERP_BOTH } InterpState; static InterpState interp_state = INTERP_NONE; static PerlInterpreter *plperl_trusted_interp = NULL; static PerlInterpreter *plperl_untrusted_interp = NULL; static PerlInterpreter *plperl_held_interp = NULL; static OP *(*pp_require_orig) (pTHX) = NULL; static OP *pp_require_safe(pTHX); static bool trusted_context; static HTAB *plperl_proc_hash = NULL; static HTAB *plperl_query_hash = NULL; static bool plperl_use_strict = false; static char *plperl_on_init = NULL; static char *plperl_on_plperl_init = NULL; static char *plperl_on_plperlu_init = NULL; static bool plperl_ending = false; static char plperl_opmask[MAXO]; static void set_interp_require(void); /* this is saved and restored by plperl_call_handler */ static plperl_call_data *current_call_data = NULL; /********************************************************************** * Forward declarations **********************************************************************/ Datum plperl_call_handler(PG_FUNCTION_ARGS); Datum plperl_inline_handler(PG_FUNCTION_ARGS); Datum plperl_validator(PG_FUNCTION_ARGS); void _PG_init(void); static PerlInterpreter *plperl_init_interp(void); static void plperl_destroy_interp(PerlInterpreter **); static void plperl_fini(int code, Datum arg); static Datum plperl_func_handler(PG_FUNCTION_ARGS); static Datum plperl_trigger_handler(PG_FUNCTION_ARGS); static plperl_proc_desc *compile_plperl_function(Oid fn_oid, bool is_trigger); static SV *plperl_hash_from_tuple(HeapTuple tuple, TupleDesc tupdesc); static void plperl_init_shared_libs(pTHX); static void plperl_trusted_init(void); static void plperl_untrusted_init(void); static HV *plperl_spi_execute_fetch_result(SPITupleTable *, int, int); static SV *newSVstring(const char *str); static SV **hv_store_string(HV *hv, const char *key, SV *val); static SV **hv_fetch_string(HV *hv, const char *key); static void plperl_create_sub(plperl_proc_desc *desc, char *s, Oid fn_oid); static SV *plperl_call_perl_func(plperl_proc_desc *desc, FunctionCallInfo fcinfo); static void plperl_compile_callback(void *arg); static void plperl_exec_callback(void *arg); static void plperl_inline_callback(void *arg); static char *strip_trailing_ws(const char *msg); static OP *pp_require_safe(pTHX); static int restore_context(bool); #ifdef WIN32 static char *setlocale_perl(int category, char *locale); #endif /* * Convert an SV to char * and verify the encoding via pg_verifymbstr() */ static inline char * sv2text_mbverified(SV *sv) { char *val; STRLEN len; /* * The value returned here might include an embedded nul byte, because * perl allows such things. That's OK, because pg_verifymbstr will choke * on it, If we just used strlen() instead of getting perl's idea of the * length, whatever uses the "verified" value might get something quite * weird. */ val = SvPV(sv, len); pg_verifymbstr(val, len, false); return val; } /* * This routine is a crock, and so is everyplace that calls it. The problem * is that the cached form of plperl functions/queries is allocated permanently * (mostly via malloc()) and never released until backend exit. Subsidiary * data structures such as fmgr info records therefore must live forever * as well. A better implementation would store all this stuff in a per- * function memory context that could be reclaimed at need. In the meantime, * fmgr_info_cxt must be called specifying TopMemoryContext so that whatever * it might allocate, and whatever the eventual function might allocate using * fn_mcxt, will live forever too. */ static void perm_fmgr_info(Oid functionId, FmgrInfo *finfo) { fmgr_info_cxt(functionId, finfo, TopMemoryContext); } /* * _PG_init() - library load-time initialization * * DO NOT make this static nor change its name! */ void _PG_init(void) { /* * Be sure we do initialization only once. * * If initialization fails due to, e.g., plperl_init_interp() throwing an * exception, then we'll return here on the next usage and the user will * get a rather cryptic: ERROR: attempt to redefine parameter "plperl.use_strict" */ static bool inited = false; HASHCTL hash_ctl; if (inited) return; pg_bindtextdomain(TEXTDOMAIN); DefineCustomBoolVariable("plperl.use_strict", gettext_noop("If true, trusted and untrusted Perl code will be compiled in strict mode."), NULL, &plperl_use_strict, false, PGC_USERSET, 0, NULL, NULL); DefineCustomStringVariable("plperl.on_init", gettext_noop("Perl initialization code to execute when a Perl interpreter is initialized."), NULL, &plperl_on_init, NULL, PGC_SIGHUP, 0, NULL, NULL); /* * plperl.on_plperl_init is currently PGC_SUSET to avoid issues whereby a * user who doesn't have USAGE privileges on the plperl language could * possibly use SET plperl.on_plperl_init='...' to influence the behaviour * of any existing plperl function that they can EXECUTE (which may be * security definer). Set * http://archives.postgresql.org/pgsql-hackers/2010-02/msg00281.php and * the overall thread. */ DefineCustomStringVariable("plperl.on_plperl_init", gettext_noop("Perl initialization code to execute once when plperl is first used."), NULL, &plperl_on_plperl_init, NULL, PGC_SUSET, 0, NULL, NULL); DefineCustomStringVariable("plperl.on_plperlu_init", gettext_noop("Perl initialization code to execute once when plperlu is first used."), NULL, &plperl_on_plperlu_init, NULL, PGC_SUSET, 0, NULL, NULL); EmitWarningsOnPlaceholders("plperl"); MemSet(&hash_ctl, 0, sizeof(hash_ctl)); hash_ctl.keysize = NAMEDATALEN; hash_ctl.entrysize = sizeof(plperl_proc_entry); plperl_proc_hash = hash_create("PLPerl Procedures", 32, &hash_ctl, HASH_ELEM); hash_ctl.entrysize = sizeof(plperl_query_entry); plperl_query_hash = hash_create("PLPerl Queries", 32, &hash_ctl, HASH_ELEM); PLPERL_SET_OPMASK(plperl_opmask); plperl_held_interp = plperl_init_interp(); interp_state = INTERP_HELD; inited = true; } static void set_interp_require(void) { if (trusted_context) { PL_ppaddr[OP_REQUIRE] = pp_require_safe; PL_ppaddr[OP_DOFILE] = pp_require_safe; } else { PL_ppaddr[OP_REQUIRE] = pp_require_orig; PL_ppaddr[OP_DOFILE] = pp_require_orig; } } /* * Cleanup perl interpreters, including running END blocks. * Does not fully undo the actions of _PG_init() nor make it callable again. */ static void plperl_fini(int code, Datum arg) { elog(DEBUG3, "plperl_fini"); /* * Indicate that perl is terminating. Disables use of spi_* functions when * running END/DESTROY code. See check_spi_usage_allowed(). Could be * enabled in future, with care, using a transaction * http://archives.postgresql.org/pgsql-hackers/2010-01/msg02743.php */ plperl_ending = true; /* Only perform perl cleanup if we're exiting cleanly */ if (code) { elog(DEBUG3, "plperl_fini: skipped"); return; } plperl_destroy_interp(&plperl_trusted_interp); plperl_destroy_interp(&plperl_untrusted_interp); plperl_destroy_interp(&plperl_held_interp); elog(DEBUG3, "plperl_fini: done"); } /******************************************************************** * * We start out by creating a "held" interpreter that we can use in * trusted or untrusted mode (but not both) as the need arises. Later, we * assign that interpreter if it is available to either the trusted or * untrusted interpreter. If it has already been assigned, and we need to * create the other interpreter, we do that if we can, or error out. */ static void select_perl_context(bool trusted) { EXTERN_C void boot_PostgreSQL__InServer__SPI(pTHX_ CV *cv); /* * handle simple cases */ if (restore_context(trusted)) return; /* * adopt held interp if free, else create new one if possible */ if (interp_state == INTERP_HELD) { /* first actual use of a perl interpreter */ if (trusted) { plperl_trusted_init(); plperl_trusted_interp = plperl_held_interp; interp_state = INTERP_TRUSTED; } else { plperl_untrusted_init(); plperl_untrusted_interp = plperl_held_interp; interp_state = INTERP_UNTRUSTED; } /* successfully initialized, so arrange for cleanup */ on_proc_exit(plperl_fini, 0); } else { #ifdef MULTIPLICITY PerlInterpreter *plperl = plperl_init_interp(); if (trusted) { plperl_trusted_init(); plperl_trusted_interp = plperl; } else { plperl_untrusted_init(); plperl_untrusted_interp = plperl; } interp_state = INTERP_BOTH; #else elog(ERROR, "cannot allocate second Perl interpreter on this platform"); #endif } plperl_held_interp = NULL; trusted_context = trusted; set_interp_require(); /* * Since the timing of first use of PL/Perl can't be predicted, any * database interaction during initialization is problematic. Including, * but not limited to, security definer issues. So we only enable access * to the database AFTER on_*_init code has run. See * http://archives.postgresql.org/message-id/20100127143318.GE713@timac.loc * al */ newXS("PostgreSQL::InServer::SPI::bootstrap", boot_PostgreSQL__InServer__SPI, __FILE__); eval_pv("PostgreSQL::InServer::SPI::bootstrap()", FALSE); if (SvTRUE(ERRSV)) ereport(ERROR, (errmsg("%s", strip_trailing_ws(SvPV_nolen(ERRSV))), errcontext("while executing PostgreSQL::InServer::SPI::bootstrap"))); } /* * Restore previous interpreter selection, if two are active */ static int restore_context(bool trusted) { if (interp_state == INTERP_BOTH || (trusted && interp_state == INTERP_TRUSTED) || (!trusted && interp_state == INTERP_UNTRUSTED)) { if (trusted_context != trusted) { if (trusted) PERL_SET_CONTEXT(plperl_trusted_interp); else PERL_SET_CONTEXT(plperl_untrusted_interp); trusted_context = trusted; set_interp_require(); } return 1; /* context restored */ } return 0; /* unable - appropriate interpreter not * available */ } static PerlInterpreter * plperl_init_interp(void) { PerlInterpreter *plperl; static int perl_sys_init_done; static char *embedding[3 + 2] = { "", "-e", PLC_PERLBOOT }; int nargs = 3; #ifdef WIN32 /* * The perl library on startup does horrible things like call * setlocale(LC_ALL,""). We have protected against that on most platforms * by setting the environment appropriately. However, on Windows, * setlocale() does not consult the environment, so we need to save the * existing locale settings before perl has a chance to mangle them and * restore them after its dirty deeds are done. * * MSDN ref: * http://msdn.microsoft.com/library/en-us/vclib/html/_crt_locale.asp * * It appears that we only need to do this on interpreter startup, and * subsequent calls to the interpreter don't mess with the locale * settings. * * We restore them using setlocale_perl(), defined below, so that Perl * doesn't have a different idea of the locale from Postgres. * */ char *loc; char *save_collate, *save_ctype, *save_monetary, *save_numeric, *save_time; loc = setlocale(LC_COLLATE, NULL); save_collate = loc ? pstrdup(loc) : NULL; loc = setlocale(LC_CTYPE, NULL); save_ctype = loc ? pstrdup(loc) : NULL; loc = setlocale(LC_MONETARY, NULL); save_monetary = loc ? pstrdup(loc) : NULL; loc = setlocale(LC_NUMERIC, NULL); save_numeric = loc ? pstrdup(loc) : NULL; loc = setlocale(LC_TIME, NULL); save_time = loc ? pstrdup(loc) : NULL; #define PLPERL_RESTORE_LOCALE(name, saved) \ STMT_START { \ if (saved != NULL) { setlocale_perl(name, saved); pfree(saved); } \ } STMT_END #endif if (plperl_on_init) { embedding[nargs++] = "-e"; embedding[nargs++] = plperl_on_init; } /**** * The perl API docs state that PERL_SYS_INIT3 should be called before * allocating interprters. Unfortunately, on some platforms this fails * in the Perl_do_taint() routine, which is called when the platform is * using the system's malloc() instead of perl's own. Other platforms, * notably Windows, fail if PERL_SYS_INIT3 is not called. So we call it * if it's available, unless perl is using the system malloc(), which is * true when MYMALLOC is set. */ #if defined(PERL_SYS_INIT3) && !defined(MYMALLOC) /* only call this the first time through, as per perlembed man page */ if (!perl_sys_init_done) { char *dummy_env[1] = {NULL}; PERL_SYS_INIT3(&nargs, (char ***) &embedding, (char ***) &dummy_env); perl_sys_init_done = 1; /* quiet warning if PERL_SYS_INIT3 doesn't use the third argument */ dummy_env[0] = NULL; } #endif plperl = perl_alloc(); if (!plperl) elog(ERROR, "could not allocate Perl interpreter"); PERL_SET_CONTEXT(plperl); perl_construct(plperl); /* run END blocks in perl_destruct instead of perl_run */ PL_exit_flags |= PERL_EXIT_DESTRUCT_END; /* * Record the original function for the 'require' and 'dofile' opcodes. * (They share the same implementation.) Ensure it's used for new interpreters. */ if (!pp_require_orig) pp_require_orig = PL_ppaddr[OP_REQUIRE]; else { PL_ppaddr[OP_REQUIRE] = pp_require_orig; PL_ppaddr[OP_DOFILE] = pp_require_orig; } #ifdef PLPERL_ENABLE_OPMASK_EARLY /* * For regression testing to prove that the PLC_PERLBOOT and PLC_TRUSTED * code doesn't even compile any unsafe ops. In future there may be a * valid need for them to do so, in which case this could be softened * (perhaps moved to plperl_trusted_init()) or removed. */ PL_op_mask = plperl_opmask; #endif if (perl_parse(plperl, plperl_init_shared_libs, nargs, embedding, NULL) != 0) ereport(ERROR, (errmsg("%s", strip_trailing_ws(SvPV_nolen(ERRSV))), errcontext("while parsing Perl initialization"))); if (perl_run(plperl) != 0) ereport(ERROR, (errmsg("%s", strip_trailing_ws(SvPV_nolen(ERRSV))), errcontext("while running Perl initialization"))); #ifdef PLPERL_RESTORE_LOCALE PLPERL_RESTORE_LOCALE(LC_COLLATE, save_collate); PLPERL_RESTORE_LOCALE(LC_CTYPE, save_ctype); PLPERL_RESTORE_LOCALE(LC_MONETARY, save_monetary); PLPERL_RESTORE_LOCALE(LC_NUMERIC, save_numeric); PLPERL_RESTORE_LOCALE(LC_TIME, save_time); #endif return plperl; } /* * Our safe implementation of the require opcode. * This is safe because it's completely unable to load any code. * If the requested file/module has already been loaded it'll return true. * If not, it'll die. * So now "use Foo;" will work iff Foo has already been loaded. */ static OP * pp_require_safe(pTHX) { dVAR; dSP; SV *sv, **svp; char *name; STRLEN len; sv = POPs; name = SvPV(sv, len); if (!(name && len > 0 && *name)) RETPUSHNO; svp = hv_fetch(GvHVn(PL_incgv), name, len, 0); if (svp && *svp != &PL_sv_undef) RETPUSHYES; DIE(aTHX_ "Unable to load %s into plperl", name); } static void plperl_destroy_interp(PerlInterpreter **interp) { if (interp && *interp) { /* * Only a very minimal destruction is performed: - just call END * blocks. * * We could call perl_destruct() but we'd need to audit its actions * very carefully and work-around any that impact us. (Calling * sv_clean_objs() isn't an option because it's not part of perl's * public API so isn't portably available.) Meanwhile END blocks can * be used to perform manual cleanup. */ PERL_SET_CONTEXT(*interp); /* Run END blocks - based on perl's perl_destruct() */ if (PL_exit_flags & PERL_EXIT_DESTRUCT_END) { dJMPENV; int x = 0; JMPENV_PUSH(x); PERL_UNUSED_VAR(x); if (PL_endav && !PL_minus_c) call_list(PL_scopestack_ix, PL_endav); JMPENV_POP; } LEAVE; FREETMPS; *interp = NULL; } } static void plperl_trusted_init(void) { HV *stash; SV *sv; char *key; I32 klen; /* use original require while we set up */ PL_ppaddr[OP_REQUIRE] = pp_require_orig; PL_ppaddr[OP_DOFILE] = pp_require_orig; eval_pv(PLC_TRUSTED, FALSE); if (SvTRUE(ERRSV)) ereport(ERROR, (errmsg("%s", strip_trailing_ws(SvPV_nolen(ERRSV))), errcontext("While executing PLC_TRUSTED."))); if (GetDatabaseEncoding() == PG_UTF8) { /* * Force loading of utf8 module now to prevent errors that can * arise from the regex code later trying to load utf8 modules. * See http://rt.perl.org/rt3/Ticket/Display.html?id=47576 */ eval_pv("my $a=chr(0x100); return $a =~ /\\xa9/i", FALSE); if (SvTRUE(ERRSV)) ereport(ERROR, (errmsg("%s", strip_trailing_ws(SvPV_nolen(ERRSV))), errcontext("While executing utf8fix."))); } /* * Lock down the interpreter */ /* switch to the safe require/dofile opcode for future code */ PL_ppaddr[OP_REQUIRE] = pp_require_safe; PL_ppaddr[OP_DOFILE] = pp_require_safe; /* * prevent (any more) unsafe opcodes being compiled * PL_op_mask is per interpreter, so this only needs to be set once */ PL_op_mask = plperl_opmask; /* delete the DynaLoader:: namespace so extensions can't be loaded */ stash = gv_stashpv("DynaLoader", GV_ADDWARN); hv_iterinit(stash); while ((sv = hv_iternextsv(stash, &key, &klen))) { if (!isGV_with_GP(sv) || !GvCV(sv)) continue; SvREFCNT_dec(GvCV(sv)); /* free the CV */ GvCV(sv) = NULL; /* prevent call via GV */ } hv_clear(stash); /* invalidate assorted caches */ ++PL_sub_generation; hv_clear(PL_stashcache); /* * Execute plperl.on_plperl_init in the locked-down interpreter */ if (plperl_on_plperl_init && *plperl_on_plperl_init) { eval_pv(plperl_on_plperl_init, FALSE); if (SvTRUE(ERRSV)) ereport(ERROR, (errmsg("%s", strip_trailing_ws(SvPV_nolen(ERRSV))), errcontext("While executing plperl.on_plperl_init."))); } } static void plperl_untrusted_init(void) { if (plperl_on_plperlu_init && *plperl_on_plperlu_init) { eval_pv(plperl_on_plperlu_init, FALSE); if (SvTRUE(ERRSV)) ereport(ERROR, (errmsg("%s", strip_trailing_ws(SvPV_nolen(ERRSV))), errcontext("while executing plperl.on_plperlu_init"))); } } /* * Perl likes to put a newline after its error messages; clean up such */ static char * strip_trailing_ws(const char *msg) { char *res = pstrdup(msg); int len = strlen(res); while (len > 0 && isspace((unsigned char) res[len - 1])) res[--len] = '\0'; return res; } /* Build a tuple from a hash. */ static HeapTuple plperl_build_tuple_result(HV *perlhash, AttInMetadata *attinmeta) { TupleDesc td = attinmeta->tupdesc; char **values; SV *val; char *key; I32 klen; HeapTuple tup; values = (char **) palloc0(td->natts * sizeof(char *)); hv_iterinit(perlhash); while ((val = hv_iternextsv(perlhash, &key, &klen))) { int attn = SPI_fnumber(td, key); if (attn <= 0 || td->attrs[attn - 1]->attisdropped) ereport(ERROR, (errcode(ERRCODE_UNDEFINED_COLUMN), errmsg("Perl hash contains nonexistent column \"%s\"", key))); if (SvOK(val)) { values[attn - 1] = sv2text_mbverified(val); } } hv_iterinit(perlhash); tup = BuildTupleFromCStrings(attinmeta, values); pfree(values); return tup; } /* * convert perl array to postgres string representation */ static SV * plperl_convert_to_pg_array(SV *src) { SV *rv; int count; dSP; PUSHMARK(SP); XPUSHs(src); PUTBACK; count = perl_call_pv("::encode_array_literal", G_SCALAR); SPAGAIN; if (count != 1) elog(ERROR, "unexpected encode_array_literal failure"); rv = POPs; PUTBACK; return rv; } /* Set up the arguments for a trigger call. */ static SV * plperl_trigger_build_args(FunctionCallInfo fcinfo) { TriggerData *tdata; TupleDesc tupdesc; int i; char *level; char *event; char *relid; char *when; HV *hv; hv = newHV(); hv_ksplit(hv, 12); /* pre-grow the hash */ tdata = (TriggerData *) fcinfo->context; tupdesc = tdata->tg_relation->rd_att; relid = DatumGetCString( DirectFunctionCall1(oidout, ObjectIdGetDatum(tdata->tg_relation->rd_id) ) ); hv_store_string(hv, "name", newSVstring(tdata->tg_trigger->tgname)); hv_store_string(hv, "relid", newSVstring(relid)); if (TRIGGER_FIRED_BY_INSERT(tdata->tg_event)) { event = "INSERT"; if (TRIGGER_FIRED_FOR_ROW(tdata->tg_event)) hv_store_string(hv, "new", plperl_hash_from_tuple(tdata->tg_trigtuple, tupdesc)); } else if (TRIGGER_FIRED_BY_DELETE(tdata->tg_event)) { event = "DELETE"; if (TRIGGER_FIRED_FOR_ROW(tdata->tg_event)) hv_store_string(hv, "old", plperl_hash_from_tuple(tdata->tg_trigtuple, tupdesc)); } else if (TRIGGER_FIRED_BY_UPDATE(tdata->tg_event)) { event = "UPDATE"; if (TRIGGER_FIRED_FOR_ROW(tdata->tg_event)) { hv_store_string(hv, "old", plperl_hash_from_tuple(tdata->tg_trigtuple, tupdesc)); hv_store_string(hv, "new", plperl_hash_from_tuple(tdata->tg_newtuple, tupdesc)); } } else if (TRIGGER_FIRED_BY_TRUNCATE(tdata->tg_event)) event = "TRUNCATE"; else event = "UNKNOWN"; hv_store_string(hv, "event", newSVstring(event)); hv_store_string(hv, "argc", newSViv(tdata->tg_trigger->tgnargs)); if (tdata->tg_trigger->tgnargs > 0) { AV *av = newAV(); av_extend(av, tdata->tg_trigger->tgnargs); for (i = 0; i < tdata->tg_trigger->tgnargs; i++) av_push(av, newSVstring(tdata->tg_trigger->tgargs[i])); hv_store_string(hv, "args", newRV_noinc((SV *) av)); } hv_store_string(hv, "relname", newSVstring(SPI_getrelname(tdata->tg_relation))); hv_store_string(hv, "table_name", newSVstring(SPI_getrelname(tdata->tg_relation))); hv_store_string(hv, "table_schema", newSVstring(SPI_getnspname(tdata->tg_relation))); if (TRIGGER_FIRED_BEFORE(tdata->tg_event)) when = "BEFORE"; else if (TRIGGER_FIRED_AFTER(tdata->tg_event)) when = "AFTER"; else when = "UNKNOWN"; hv_store_string(hv, "when", newSVstring(when)); if (TRIGGER_FIRED_FOR_ROW(tdata->tg_event)) level = "ROW"; else if (TRIGGER_FIRED_FOR_STATEMENT(tdata->tg_event)) level = "STATEMENT"; else level = "UNKNOWN"; hv_store_string(hv, "level", newSVstring(level)); return newRV_noinc((SV *) hv); } /* Set up the new tuple returned from a trigger. */ static HeapTuple plperl_modify_tuple(HV *hvTD, TriggerData *tdata, HeapTuple otup) { SV **svp; HV *hvNew; HeapTuple rtup; SV *val; char *key; I32 klen; int slotsused; int *modattrs; Datum *modvalues; char *modnulls; TupleDesc tupdesc; tupdesc = tdata->tg_relation->rd_att; svp = hv_fetch_string(hvTD, "new"); if (!svp) ereport(ERROR, (errcode(ERRCODE_UNDEFINED_COLUMN), errmsg("$_TD->{new} does not exist"))); if (!SvOK(*svp) || !SvROK(*svp) || SvTYPE(SvRV(*svp)) != SVt_PVHV) ereport(ERROR, (errcode(ERRCODE_DATATYPE_MISMATCH), errmsg("$_TD->{new} is not a hash reference"))); hvNew = (HV *) SvRV(*svp); modattrs = palloc(tupdesc->natts * sizeof(int)); modvalues = palloc(tupdesc->natts * sizeof(Datum)); modnulls = palloc(tupdesc->natts * sizeof(char)); slotsused = 0; hv_iterinit(hvNew); while ((val = hv_iternextsv(hvNew, &key, &klen))) { int attn = SPI_fnumber(tupdesc, key); Oid typinput; Oid typioparam; int32 atttypmod; FmgrInfo finfo; if (attn <= 0 || tupdesc->attrs[attn - 1]->attisdropped) ereport(ERROR, (errcode(ERRCODE_UNDEFINED_COLUMN), errmsg("Perl hash contains nonexistent column \"%s\"", key))); /* XXX would be better to cache these lookups */ getTypeInputInfo(tupdesc->attrs[attn - 1]->atttypid, &typinput, &typioparam); fmgr_info(typinput, &finfo); atttypmod = tupdesc->attrs[attn - 1]->atttypmod; if (SvOK(val)) { modvalues[slotsused] = InputFunctionCall(&finfo, sv2text_mbverified(val), typioparam, atttypmod); modnulls[slotsused] = ' '; } else { modvalues[slotsused] = InputFunctionCall(&finfo, NULL, typioparam, atttypmod); modnulls[slotsused] = 'n'; } modattrs[slotsused] = attn; slotsused++; } hv_iterinit(hvNew); rtup = SPI_modifytuple(tdata->tg_relation, otup, slotsused, modattrs, modvalues, modnulls); pfree(modattrs); pfree(modvalues); pfree(modnulls); if (rtup == NULL) elog(ERROR, "SPI_modifytuple failed: %s", SPI_result_code_string(SPI_result)); return rtup; } /* * There are three externally visible pieces to plperl: plperl_call_handler, * plperl_inline_handler, and plperl_validator. */ /* * The call handler is called to run normal functions (including trigger * functions) that are defined in pg_proc. */ PG_FUNCTION_INFO_V1(plperl_call_handler); Datum plperl_call_handler(PG_FUNCTION_ARGS) { Datum retval; plperl_call_data *save_call_data = current_call_data; bool oldcontext = trusted_context; PG_TRY(); { if (CALLED_AS_TRIGGER(fcinfo)) retval = PointerGetDatum(plperl_trigger_handler(fcinfo)); else retval = plperl_func_handler(fcinfo); } PG_CATCH(); { current_call_data = save_call_data; restore_context(oldcontext); PG_RE_THROW(); } PG_END_TRY(); current_call_data = save_call_data; restore_context(oldcontext); return retval; } /* * The inline handler runs anonymous code blocks (DO blocks). */ PG_FUNCTION_INFO_V1(plperl_inline_handler); Datum plperl_inline_handler(PG_FUNCTION_ARGS) { InlineCodeBlock *codeblock = (InlineCodeBlock *) PG_GETARG_POINTER(0); FunctionCallInfoData fake_fcinfo; FmgrInfo flinfo; plperl_proc_desc desc; plperl_call_data *save_call_data = current_call_data; bool oldcontext = trusted_context; ErrorContextCallback pl_error_context; /* Set up a callback for error reporting */ pl_error_context.callback = plperl_inline_callback; pl_error_context.previous = error_context_stack; pl_error_context.arg = (Datum) 0; error_context_stack = &pl_error_context; /* * Set up a fake fcinfo and descriptor with just enough info to satisfy * plperl_call_perl_func(). In particular note that this sets things up * with no arguments passed, and a result type of VOID. */ MemSet(&fake_fcinfo, 0, sizeof(fake_fcinfo)); MemSet(&flinfo, 0, sizeof(flinfo)); MemSet(&desc, 0, sizeof(desc)); fake_fcinfo.flinfo = &flinfo; flinfo.fn_oid = InvalidOid; flinfo.fn_mcxt = CurrentMemoryContext; desc.proname = "inline_code_block"; desc.fn_readonly = false; desc.lanpltrusted = codeblock->langIsTrusted; desc.fn_retistuple = false; desc.fn_retisset = false; desc.fn_retisarray = false; desc.result_oid = VOIDOID; desc.nargs = 0; desc.reference = NULL; current_call_data = (plperl_call_data *) palloc0(sizeof(plperl_call_data)); current_call_data->fcinfo = &fake_fcinfo; current_call_data->prodesc = &desc; PG_TRY(); { SV *perlret; if (SPI_connect() != SPI_OK_CONNECT) elog(ERROR, "could not connect to SPI manager"); select_perl_context(desc.lanpltrusted); plperl_create_sub(&desc, codeblock->source_text, 0); if (!desc.reference) /* can this happen? */ elog(ERROR, "could not create internal procedure for anonymous code block"); perlret = plperl_call_perl_func(&desc, &fake_fcinfo); SvREFCNT_dec(perlret); if (SPI_finish() != SPI_OK_FINISH) elog(ERROR, "SPI_finish() failed"); } PG_CATCH(); { if (desc.reference) SvREFCNT_dec(desc.reference); current_call_data = save_call_data; restore_context(oldcontext); PG_RE_THROW(); } PG_END_TRY(); if (desc.reference) SvREFCNT_dec(desc.reference); current_call_data = save_call_data; restore_context(oldcontext); error_context_stack = pl_error_context.previous; PG_RETURN_VOID(); } /* * The validator is called during CREATE FUNCTION to validate the function * being created/replaced. The precise behavior of the validator may be * modified by the check_function_bodies GUC. */ PG_FUNCTION_INFO_V1(plperl_validator); Datum plperl_validator(PG_FUNCTION_ARGS) { Oid funcoid = PG_GETARG_OID(0); HeapTuple tuple; Form_pg_proc proc; char functyptype; int numargs; Oid *argtypes; char **argnames; char *argmodes; bool istrigger = false; int i; /* Get the new function's pg_proc entry */ tuple = SearchSysCache1(PROCOID, ObjectIdGetDatum(funcoid)); if (!HeapTupleIsValid(tuple)) elog(ERROR, "cache lookup failed for function %u", funcoid); proc = (Form_pg_proc) GETSTRUCT(tuple); functyptype = get_typtype(proc->prorettype); /* Disallow pseudotype result */ /* except for TRIGGER, RECORD, or VOID */ if (functyptype == TYPTYPE_PSEUDO) { /* we assume OPAQUE with no arguments means a trigger */ if (proc->prorettype == TRIGGEROID || (proc->prorettype == OPAQUEOID && proc->pronargs == 0)) istrigger = true; else if (proc->prorettype != RECORDOID && proc->prorettype != VOIDOID) ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("PL/Perl functions cannot return type %s", format_type_be(proc->prorettype)))); } /* Disallow pseudotypes in arguments (either IN or OUT) */ numargs = get_func_arg_info(tuple, &argtypes, &argnames, &argmodes); for (i = 0; i < numargs; i++) { if (get_typtype(argtypes[i]) == TYPTYPE_PSEUDO) ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("PL/Perl functions cannot accept type %s", format_type_be(argtypes[i])))); } ReleaseSysCache(tuple); /* Postpone body checks if !check_function_bodies */ if (check_function_bodies) { (void) compile_plperl_function(funcoid, istrigger); } /* the result of a validator is ignored */ PG_RETURN_VOID(); } /* * Uses mksafefunc/mkunsafefunc to create a subroutine whose text is * supplied in s, and returns a reference to it */ static void plperl_create_sub(plperl_proc_desc *prodesc, char *s, Oid fn_oid) { dSP; char subname[NAMEDATALEN + 40]; HV *pragma_hv = newHV(); SV *subref = NULL; int count; sprintf(subname, "%s__%u", prodesc->proname, fn_oid); if (plperl_use_strict) hv_store_string(pragma_hv, "strict", (SV *) newAV()); ENTER; SAVETMPS; PUSHMARK(SP); EXTEND(SP, 4); PUSHs(sv_2mortal(newSVstring(subname))); PUSHs(sv_2mortal(newRV_noinc((SV *) pragma_hv))); PUSHs(sv_2mortal(newSVstring("our $_TD; local $_TD=shift;"))); PUSHs(sv_2mortal(newSVstring(s))); PUTBACK; /* * G_KEEPERR seems to be needed here, else we don't recognize compile * errors properly. Perhaps it's because there's another level of eval * inside mksafefunc? */ count = perl_call_pv("PostgreSQL::InServer::mkfunc", G_SCALAR | G_EVAL | G_KEEPERR); SPAGAIN; if (count == 1) { SV *sub_rv = (SV *) POPs; if (sub_rv && SvROK(sub_rv) && SvTYPE(SvRV(sub_rv)) == SVt_PVCV) { subref = newRV_inc(SvRV(sub_rv)); } } PUTBACK; FREETMPS; LEAVE; if (SvTRUE(ERRSV)) ereport(ERROR, (errcode(ERRCODE_SYNTAX_ERROR), errmsg("%s", strip_trailing_ws(SvPV_nolen(ERRSV))))); if (!subref) ereport(ERROR, (errmsg("didn't get a CODE ref from compiling %s", prodesc->proname))); /* give the subroutine a proper name in the main:: symbol table */ CvGV(SvRV(subref)) = (GV *) newSV(0); gv_init(CvGV(SvRV(subref)), PL_defstash, subname, strlen(subname), TRUE); prodesc->reference = subref; return; } /********************************************************************** * plperl_init_shared_libs() - **********************************************************************/ static void plperl_init_shared_libs(pTHX) { char *file = __FILE__; EXTERN_C void boot_DynaLoader(pTHX_ CV *cv); EXTERN_C void boot_PostgreSQL__InServer__Util(pTHX_ CV *cv); newXS("DynaLoader::boot_DynaLoader", boot_DynaLoader, file); newXS("PostgreSQL::InServer::Util::bootstrap", boot_PostgreSQL__InServer__Util, file); /* newXS for...::SPI::bootstrap is in select_perl_context() */ } static SV * plperl_call_perl_func(plperl_proc_desc *desc, FunctionCallInfo fcinfo) { dSP; SV *retval; int i; int count; SV *sv; ENTER; SAVETMPS; PUSHMARK(SP); EXTEND(sp, 1 + desc->nargs); PUSHs(&PL_sv_undef); /* no trigger data */ for (i = 0; i < desc->nargs; i++) { if (fcinfo->argnull[i]) PUSHs(&PL_sv_undef); else if (desc->arg_is_rowtype[i]) { HeapTupleHeader td; Oid tupType; int32 tupTypmod; TupleDesc tupdesc; HeapTupleData tmptup; SV *hashref; td = DatumGetHeapTupleHeader(fcinfo->arg[i]); /* Extract rowtype info and find a tupdesc */ tupType = HeapTupleHeaderGetTypeId(td); tupTypmod = HeapTupleHeaderGetTypMod(td); tupdesc = lookup_rowtype_tupdesc(tupType, tupTypmod); /* Build a temporary HeapTuple control structure */ tmptup.t_len = HeapTupleHeaderGetDatumLength(td); tmptup.t_data = td; hashref = plperl_hash_from_tuple(&tmptup, tupdesc); PUSHs(sv_2mortal(hashref)); ReleaseTupleDesc(tupdesc); } else { char *tmp; tmp = OutputFunctionCall(&(desc->arg_out_func[i]), fcinfo->arg[i]); sv = newSVstring(tmp); PUSHs(sv_2mortal(sv)); pfree(tmp); } } PUTBACK; /* Do NOT use G_KEEPERR here */ count = perl_call_sv(desc->reference, G_SCALAR | G_EVAL); SPAGAIN; if (count != 1) { PUTBACK; FREETMPS; LEAVE; elog(ERROR, "didn't get a return item from function"); } if (SvTRUE(ERRSV)) { (void) POPs; PUTBACK; FREETMPS; LEAVE; /* XXX need to find a way to assign an errcode here */ ereport(ERROR, (errmsg("%s", strip_trailing_ws(SvPV_nolen(ERRSV))))); } retval = newSVsv(POPs); PUTBACK; FREETMPS; LEAVE; return retval; } static SV * plperl_call_perl_trigger_func(plperl_proc_desc *desc, FunctionCallInfo fcinfo, SV *td) { dSP; SV *retval; Trigger *tg_trigger; int i; int count; ENTER; SAVETMPS; PUSHMARK(sp); XPUSHs(td); tg_trigger = ((TriggerData *) fcinfo->context)->tg_trigger; for (i = 0; i < tg_trigger->tgnargs; i++) XPUSHs(sv_2mortal(newSVstring(tg_trigger->tgargs[i]))); PUTBACK; /* Do NOT use G_KEEPERR here */ count = perl_call_sv(desc->reference, G_SCALAR | G_EVAL); SPAGAIN; if (count != 1) { PUTBACK; FREETMPS; LEAVE; elog(ERROR, "didn't get a return item from trigger function"); } if (SvTRUE(ERRSV)) { (void) POPs; PUTBACK; FREETMPS; LEAVE; /* XXX need to find a way to assign an errcode here */ ereport(ERROR, (errmsg("%s", strip_trailing_ws(SvPV_nolen(ERRSV))))); } retval = newSVsv(POPs); PUTBACK; FREETMPS; LEAVE; return retval; } static Datum plperl_func_handler(PG_FUNCTION_ARGS) { plperl_proc_desc *prodesc; SV *perlret; Datum retval; ReturnSetInfo *rsi; SV *array_ret = NULL; ErrorContextCallback pl_error_context; /* * Create the call_data beforing connecting to SPI, so that it is not * allocated in the SPI memory context */ current_call_data = (plperl_call_data *) palloc0(sizeof(plperl_call_data)); current_call_data->fcinfo = fcinfo; if (SPI_connect() != SPI_OK_CONNECT) elog(ERROR, "could not connect to SPI manager"); prodesc = compile_plperl_function(fcinfo->flinfo->fn_oid, false); current_call_data->prodesc = prodesc; /* Set a callback for error reporting */ pl_error_context.callback = plperl_exec_callback; pl_error_context.previous = error_context_stack; pl_error_context.arg = prodesc->proname; error_context_stack = &pl_error_context; rsi = (ReturnSetInfo *) fcinfo->resultinfo; if (prodesc->fn_retisset) { /* Check context before allowing the call to go through */ if (!rsi || !IsA(rsi, ReturnSetInfo) || (rsi->allowedModes & SFRM_Materialize) == 0 || rsi->expectedDesc == NULL) ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("set-valued function called in context that " "cannot accept a set"))); } select_perl_context(prodesc->lanpltrusted); perlret = plperl_call_perl_func(prodesc, fcinfo); /************************************************************ * Disconnect from SPI manager and then create the return * values datum (if the input function does a palloc for it * this must not be allocated in the SPI memory context * because SPI_finish would free it). ************************************************************/ if (SPI_finish() != SPI_OK_FINISH) elog(ERROR, "SPI_finish() failed"); if (prodesc->fn_retisset) { /* * If the Perl function returned an arrayref, we pretend that it * called return_next() for each element of the array, to handle old * SRFs that didn't know about return_next(). Any other sort of return * value is an error, except undef which means return an empty set. */ if (SvOK(perlret) && SvROK(perlret) && SvTYPE(SvRV(perlret)) == SVt_PVAV) { int i = 0; SV **svp = 0; AV *rav = (AV *) SvRV(perlret); while ((svp = av_fetch(rav, i, FALSE)) != NULL) { plperl_return_next(*svp); i++; } } else if (SvOK(perlret)) { ereport(ERROR, (errcode(ERRCODE_DATATYPE_MISMATCH), errmsg("set-returning PL/Perl function must return " "reference to array or use return_next"))); } rsi->returnMode = SFRM_Materialize; if (current_call_data->tuple_store) { rsi->setResult = current_call_data->tuple_store; rsi->setDesc = current_call_data->ret_tdesc; } retval = (Datum) 0; } else if (!SvOK(perlret)) { /* Return NULL if Perl code returned undef */ if (rsi && IsA(rsi, ReturnSetInfo)) rsi->isDone = ExprEndResult; retval = InputFunctionCall(&prodesc->result_in_func, NULL, prodesc->result_typioparam, -1); fcinfo->isnull = true; } else if (prodesc->fn_retistuple) { /* Return a perl hash converted to a Datum */ TupleDesc td; AttInMetadata *attinmeta; HeapTuple tup; if (!SvOK(perlret) || !SvROK(perlret) || SvTYPE(SvRV(perlret)) != SVt_PVHV) { ereport(ERROR, (errcode(ERRCODE_DATATYPE_MISMATCH), errmsg("composite-returning PL/Perl function " "must return reference to hash"))); } /* XXX should cache the attinmeta data instead of recomputing */ if (get_call_result_type(fcinfo, NULL, &td) != TYPEFUNC_COMPOSITE) { ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("function returning record called in context " "that cannot accept type record"))); } attinmeta = TupleDescGetAttInMetadata(td); tup = plperl_build_tuple_result((HV *) SvRV(perlret), attinmeta); retval = HeapTupleGetDatum(tup); } else { /* Return a perl string converted to a Datum */ if (prodesc->fn_retisarray && SvROK(perlret) && SvTYPE(SvRV(perlret)) == SVt_PVAV) { array_ret = plperl_convert_to_pg_array(perlret); SvREFCNT_dec(perlret); perlret = array_ret; } retval = InputFunctionCall(&prodesc->result_in_func, sv2text_mbverified(perlret), prodesc->result_typioparam, -1); } /* Restore the previous error callback */ error_context_stack = pl_error_context.previous; if (array_ret == NULL) SvREFCNT_dec(perlret); return retval; } static Datum plperl_trigger_handler(PG_FUNCTION_ARGS) { plperl_proc_desc *prodesc; SV *perlret; Datum retval; SV *svTD; HV *hvTD; ErrorContextCallback pl_error_context; /* * Create the call_data beforing connecting to SPI, so that it is not * allocated in the SPI memory context */ current_call_data = (plperl_call_data *) palloc0(sizeof(plperl_call_data)); current_call_data->fcinfo = fcinfo; /* Connect to SPI manager */ if (SPI_connect() != SPI_OK_CONNECT) elog(ERROR, "could not connect to SPI manager"); /* Find or compile the function */ prodesc = compile_plperl_function(fcinfo->flinfo->fn_oid, true); current_call_data->prodesc = prodesc; /* Set a callback for error reporting */ pl_error_context.callback = plperl_exec_callback; pl_error_context.previous = error_context_stack; pl_error_context.arg = prodesc->proname; error_context_stack = &pl_error_context; select_perl_context(prodesc->lanpltrusted); svTD = plperl_trigger_build_args(fcinfo); perlret = plperl_call_perl_trigger_func(prodesc, fcinfo, svTD); hvTD = (HV *) SvRV(svTD); /************************************************************ * Disconnect from SPI manager and then create the return * values datum (if the input function does a palloc for it * this must not be allocated in the SPI memory context * because SPI_finish would free it). ************************************************************/ if (SPI_finish() != SPI_OK_FINISH) elog(ERROR, "SPI_finish() failed"); if (perlret == NULL || !SvOK(perlret)) { /* undef result means go ahead with original tuple */ TriggerData *trigdata = ((TriggerData *) fcinfo->context); if (TRIGGER_FIRED_BY_INSERT(trigdata->tg_event)) retval = (Datum) trigdata->tg_trigtuple; else if (TRIGGER_FIRED_BY_UPDATE(trigdata->tg_event)) retval = (Datum) trigdata->tg_newtuple; else if (TRIGGER_FIRED_BY_DELETE(trigdata->tg_event)) retval = (Datum) trigdata->tg_trigtuple; else if (TRIGGER_FIRED_BY_TRUNCATE(trigdata->tg_event)) retval = (Datum) trigdata->tg_trigtuple; else retval = (Datum) 0; /* can this happen? */ } else { HeapTuple trv; char *tmp; tmp = SvPV_nolen(perlret); if (pg_strcasecmp(tmp, "SKIP") == 0) trv = NULL; else if (pg_strcasecmp(tmp, "MODIFY") == 0) { TriggerData *trigdata = (TriggerData *) fcinfo->context; if (TRIGGER_FIRED_BY_INSERT(trigdata->tg_event)) trv = plperl_modify_tuple(hvTD, trigdata, trigdata->tg_trigtuple); else if (TRIGGER_FIRED_BY_UPDATE(trigdata->tg_event)) trv = plperl_modify_tuple(hvTD, trigdata, trigdata->tg_newtuple); else { ereport(WARNING, (errcode(ERRCODE_E_R_I_E_TRIGGER_PROTOCOL_VIOLATED), errmsg("ignoring modified row in DELETE trigger"))); trv = NULL; } } else { ereport(ERROR, (errcode(ERRCODE_E_R_I_E_TRIGGER_PROTOCOL_VIOLATED), errmsg("result of PL/Perl trigger function must be undef, " "\"SKIP\", or \"MODIFY\""))); trv = NULL; } retval = PointerGetDatum(trv); } /* Restore the previous error callback */ error_context_stack = pl_error_context.previous; SvREFCNT_dec(svTD); if (perlret) SvREFCNT_dec(perlret); return retval; } static plperl_proc_desc * compile_plperl_function(Oid fn_oid, bool is_trigger) { HeapTuple procTup; Form_pg_proc procStruct; char internal_proname[NAMEDATALEN]; plperl_proc_desc *prodesc = NULL; int i; plperl_proc_entry *hash_entry; bool found; bool oldcontext = trusted_context; ErrorContextCallback plperl_error_context; /* We'll need the pg_proc tuple in any case... */ procTup = SearchSysCache1(PROCOID, ObjectIdGetDatum(fn_oid)); if (!HeapTupleIsValid(procTup)) elog(ERROR, "cache lookup failed for function %u", fn_oid); procStruct = (Form_pg_proc) GETSTRUCT(procTup); /* Set a callback for reporting compilation errors */ plperl_error_context.callback = plperl_compile_callback; plperl_error_context.previous = error_context_stack; plperl_error_context.arg = NameStr(procStruct->proname); error_context_stack = &plperl_error_context; /************************************************************ * Build our internal proc name from the function's Oid ************************************************************/ if (!is_trigger) sprintf(internal_proname, "__PLPerl_proc_%u", fn_oid); else sprintf(internal_proname, "__PLPerl_proc_%u_trigger", fn_oid); /************************************************************ * Lookup the internal proc name in the hashtable ************************************************************/ hash_entry = hash_search(plperl_proc_hash, internal_proname, HASH_FIND, NULL); if (hash_entry) { bool uptodate; prodesc = hash_entry->proc_data; /************************************************************ * If it's present, must check whether it's still up to date. * This is needed because CREATE OR REPLACE FUNCTION can modify the * function's pg_proc entry without changing its OID. ************************************************************/ uptodate = (prodesc->fn_xmin == HeapTupleHeaderGetXmin(procTup->t_data) && ItemPointerEquals(&prodesc->fn_tid, &procTup->t_self)); if (!uptodate) { hash_search(plperl_proc_hash, internal_proname, HASH_REMOVE, NULL); if (prodesc->reference) { select_perl_context(prodesc->lanpltrusted); SvREFCNT_dec(prodesc->reference); restore_context(oldcontext); } free(prodesc->proname); free(prodesc); prodesc = NULL; } } /************************************************************ * If we haven't found it in the hashtable, we analyze * the function's arguments and return type and store * the in-/out-functions in the prodesc block and create * a new hashtable entry for it. * * Then we load the procedure into the Perl interpreter. ************************************************************/ if (prodesc == NULL) { HeapTuple langTup; HeapTuple typeTup; Form_pg_language langStruct; Form_pg_type typeStruct; Datum prosrcdatum; bool isnull; char *proc_source; /************************************************************ * Allocate a new procedure description block ************************************************************/ prodesc = (plperl_proc_desc *) malloc(sizeof(plperl_proc_desc)); if (prodesc == NULL) ereport(ERROR, (errcode(ERRCODE_OUT_OF_MEMORY), errmsg("out of memory"))); MemSet(prodesc, 0, sizeof(plperl_proc_desc)); prodesc->proname = strdup(NameStr(procStruct->proname)); prodesc->fn_xmin = HeapTupleHeaderGetXmin(procTup->t_data); prodesc->fn_tid = procTup->t_self; /* Remember if function is STABLE/IMMUTABLE */ prodesc->fn_readonly = (procStruct->provolatile != PROVOLATILE_VOLATILE); /************************************************************ * Lookup the pg_language tuple by Oid ************************************************************/ langTup = SearchSysCache1(LANGOID, ObjectIdGetDatum(procStruct->prolang)); if (!HeapTupleIsValid(langTup)) { free(prodesc->proname); free(prodesc); elog(ERROR, "cache lookup failed for language %u", procStruct->prolang); } langStruct = (Form_pg_language) GETSTRUCT(langTup); prodesc->lanpltrusted = langStruct->lanpltrusted; ReleaseSysCache(langTup); /************************************************************ * Get the required information for input conversion of the * return value. ************************************************************/ if (!is_trigger) { typeTup = SearchSysCache1(TYPEOID, ObjectIdGetDatum(procStruct->prorettype)); if (!HeapTupleIsValid(typeTup)) { free(prodesc->proname); free(prodesc); elog(ERROR, "cache lookup failed for type %u", procStruct->prorettype); } typeStruct = (Form_pg_type) GETSTRUCT(typeTup); /* Disallow pseudotype result, except VOID or RECORD */ if (typeStruct->typtype == TYPTYPE_PSEUDO) { if (procStruct->prorettype == VOIDOID || procStruct->prorettype == RECORDOID) /* okay */ ; else if (procStruct->prorettype == TRIGGEROID) { free(prodesc->proname); free(prodesc); ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("trigger functions can only be called " "as triggers"))); } else { free(prodesc->proname); free(prodesc); ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("PL/Perl functions cannot return type %s", format_type_be(procStruct->prorettype)))); } } prodesc->result_oid = procStruct->prorettype; prodesc->fn_retisset = procStruct->proretset; prodesc->fn_retistuple = (procStruct->prorettype == RECORDOID || typeStruct->typtype == TYPTYPE_COMPOSITE); prodesc->fn_retisarray = (typeStruct->typlen == -1 && typeStruct->typelem); perm_fmgr_info(typeStruct->typinput, &(prodesc->result_in_func)); prodesc->result_typioparam = getTypeIOParam(typeTup); ReleaseSysCache(typeTup); } /************************************************************ * Get the required information for output conversion * of all procedure arguments ************************************************************/ if (!is_trigger) { prodesc->nargs = procStruct->pronargs; for (i = 0; i < prodesc->nargs; i++) { typeTup = SearchSysCache1(TYPEOID, ObjectIdGetDatum(procStruct->proargtypes.values[i])); if (!HeapTupleIsValid(typeTup)) { free(prodesc->proname); free(prodesc); elog(ERROR, "cache lookup failed for type %u", procStruct->proargtypes.values[i]); } typeStruct = (Form_pg_type) GETSTRUCT(typeTup); /* Disallow pseudotype argument */ if (typeStruct->typtype == TYPTYPE_PSEUDO) { free(prodesc->proname); free(prodesc); ereport(ERROR, (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), errmsg("PL/Perl functions cannot accept type %s", format_type_be(procStruct->proargtypes.values[i])))); } if (typeStruct->typtype == TYPTYPE_COMPOSITE) prodesc->arg_is_rowtype[i] = true; else { prodesc->arg_is_rowtype[i] = false; perm_fmgr_info(typeStruct->typoutput, &(prodesc->arg_out_func[i])); } ReleaseSysCache(typeTup); } } /************************************************************ * create the text of the anonymous subroutine. * we do not use a named subroutine so that we can call directly * through the reference. ************************************************************/ prosrcdatum = SysCacheGetAttr(PROCOID, procTup, Anum_pg_proc_prosrc, &isnull); if (isnull) elog(ERROR, "null prosrc"); proc_source = TextDatumGetCString(prosrcdatum); /************************************************************ * Create the procedure in the interpreter ************************************************************/ select_perl_context(prodesc->lanpltrusted); plperl_create_sub(prodesc, proc_source, fn_oid); restore_context(oldcontext); pfree(proc_source); if (!prodesc->reference) /* can this happen? */ { free(prodesc->proname); free(prodesc); elog(ERROR, "could not create internal procedure \"%s\"", internal_proname); } hash_entry = hash_search(plperl_proc_hash, internal_proname, HASH_ENTER, &found); hash_entry->proc_data = prodesc; } /* restore previous error callback */ error_context_stack = plperl_error_context.previous; ReleaseSysCache(procTup); return prodesc; } /* Build a hash from all attributes of a given tuple. */ static SV * plperl_hash_from_tuple(HeapTuple tuple, TupleDesc tupdesc) { HV *hv; int i; hv = newHV(); hv_ksplit(hv, tupdesc->natts); /* pre-grow the hash */ for (i = 0; i < tupdesc->natts; i++) { Datum attr; bool isnull; char *attname; char *outputstr; Oid typoutput; bool typisvarlena; if (tupdesc->attrs[i]->attisdropped) continue; attname = NameStr(tupdesc->attrs[i]->attname); attr = heap_getattr(tuple, i + 1, tupdesc, &isnull); if (isnull) { /* Store (attname => undef) and move on. */ hv_store_string(hv, attname, newSV(0)); continue; } /* XXX should have a way to cache these lookups */ getTypeOutputInfo(tupdesc->attrs[i]->atttypid, &typoutput, &typisvarlena); outputstr = OidOutputFunctionCall(typoutput, attr); hv_store_string(hv, attname, newSVstring(outputstr)); pfree(outputstr); } return newRV_noinc((SV *) hv); } static void check_spi_usage_allowed() { /* see comment in plperl_fini() */ if (plperl_ending) { /* simple croak as we don't want to involve PostgreSQL code */ croak("SPI functions can not be used in END blocks"); } } HV * plperl_spi_exec(char *query, int limit) { HV *ret_hv; /* * Execute the query inside a sub-transaction, so we can cope with errors * sanely */ MemoryContext oldcontext = CurrentMemoryContext; ResourceOwner oldowner = CurrentResourceOwner; check_spi_usage_allowed(); BeginInternalSubTransaction(NULL); /* Want to run inside function's memory context */ MemoryContextSwitchTo(oldcontext); PG_TRY(); { int spi_rv; pg_verifymbstr(query, strlen(query), false); spi_rv = SPI_execute(query, current_call_data->prodesc->fn_readonly, limit); ret_hv = plperl_spi_execute_fetch_result(SPI_tuptable, SPI_processed, spi_rv); /* Commit the inner transaction, return to outer xact context */ ReleaseCurrentSubTransaction(); MemoryContextSwitchTo(oldcontext); CurrentResourceOwner = oldowner; /* * AtEOSubXact_SPI() should not have popped any SPI context, but just * in case it did, make sure we remain connected. */ SPI_restore_connection(); } PG_CATCH(); { ErrorData *edata; /* Save error info */ MemoryContextSwitchTo(oldcontext); edata = CopyErrorData(); FlushErrorState(); /* Abort the inner transaction */ RollbackAndReleaseCurrentSubTransaction(); MemoryContextSwitchTo(oldcontext); CurrentResourceOwner = oldowner; /* * If AtEOSubXact_SPI() popped any SPI context of the subxact, it will * have left us in a disconnected state. We need this hack to return * to connected state. */ SPI_restore_connection(); /* Punt the error to Perl */ croak("%s", edata->message); /* Can't get here, but keep compiler quiet */ return NULL; } PG_END_TRY(); return ret_hv; } static HV * plperl_spi_execute_fetch_result(SPITupleTable *tuptable, int processed, int status) { HV *result; check_spi_usage_allowed(); result = newHV(); hv_store_string(result, "status", newSVstring(SPI_result_code_string(status))); hv_store_string(result, "processed", newSViv(processed)); if (status > 0 && tuptable) { AV *rows; SV *row; int i; rows = newAV(); av_extend(rows, processed); for (i = 0; i < processed; i++) { row = plperl_hash_from_tuple(tuptable->vals[i], tuptable->tupdesc); av_push(rows, row); } hv_store_string(result, "rows", newRV_noinc((SV *) rows)); } SPI_freetuptable(tuptable); return result; } /* * Note: plperl_return_next is called both in Postgres and Perl contexts. * We report any errors in Postgres fashion (via ereport). If called in * Perl context, it is SPI.xs's responsibility to catch the error and * convert to a Perl error. We assume (perhaps without adequate justification) * that we need not abort the current transaction if the Perl code traps the * error. */ void plperl_return_next(SV *sv) { plperl_proc_desc *prodesc; FunctionCallInfo fcinfo; ReturnSetInfo *rsi; MemoryContext old_cxt; if (!sv) return; prodesc = current_call_data->prodesc; fcinfo = current_call_data->fcinfo; rsi = (ReturnSetInfo *) fcinfo->resultinfo; if (!prodesc->fn_retisset) ereport(ERROR, (errcode(ERRCODE_SYNTAX_ERROR), errmsg("cannot use return_next in a non-SETOF function"))); if (prodesc->fn_retistuple && !(SvOK(sv) && SvROK(sv) && SvTYPE(SvRV(sv)) == SVt_PVHV)) ereport(ERROR, (errcode(ERRCODE_DATATYPE_MISMATCH), errmsg("SETOF-composite-returning PL/Perl function " "must call return_next with reference to hash"))); if (!current_call_data->ret_tdesc) { TupleDesc tupdesc; Assert(!current_call_data->tuple_store); Assert(!current_call_data->attinmeta); /* * This is the first call to return_next in the current PL/Perl * function call, so memoize some lookups */ if (prodesc->fn_retistuple) (void) get_call_result_type(fcinfo, NULL, &tupdesc); else tupdesc = rsi->expectedDesc; /* * Make sure the tuple_store and ret_tdesc are sufficiently * long-lived. */ old_cxt = MemoryContextSwitchTo(rsi->econtext->ecxt_per_query_memory); current_call_data->ret_tdesc = CreateTupleDescCopy(tupdesc); current_call_data->tuple_store = tuplestore_begin_heap(rsi->allowedModes & SFRM_Materialize_Random, false, work_mem); if (prodesc->fn_retistuple) { current_call_data->attinmeta = TupleDescGetAttInMetadata(current_call_data->ret_tdesc); } MemoryContextSwitchTo(old_cxt); } /* * Producing the tuple we want to return requires making plenty of * palloc() allocations that are not cleaned up. Since this function can * be called many times before the current memory context is reset, we * need to do those allocations in a temporary context. */ if (!current_call_data->tmp_cxt) { current_call_data->tmp_cxt = AllocSetContextCreate(rsi->econtext->ecxt_per_tuple_memory, "PL/Perl return_next temporary cxt", ALLOCSET_DEFAULT_MINSIZE, ALLOCSET_DEFAULT_INITSIZE, ALLOCSET_DEFAULT_MAXSIZE); } old_cxt = MemoryContextSwitchTo(current_call_data->tmp_cxt); if (prodesc->fn_retistuple) { HeapTuple tuple; tuple = plperl_build_tuple_result((HV *) SvRV(sv), current_call_data->attinmeta); tuplestore_puttuple(current_call_data->tuple_store, tuple); } else { Datum ret; bool isNull; if (SvOK(sv)) { if (prodesc->fn_retisarray && SvROK(sv) && SvTYPE(SvRV(sv)) == SVt_PVAV) { sv = plperl_convert_to_pg_array(sv); } ret = InputFunctionCall(&prodesc->result_in_func, sv2text_mbverified(sv), prodesc->result_typioparam, -1); isNull = false; } else { ret = InputFunctionCall(&prodesc->result_in_func, NULL, prodesc->result_typioparam, -1); isNull = true; } tuplestore_putvalues(current_call_data->tuple_store, current_call_data->ret_tdesc, &ret, &isNull); } MemoryContextSwitchTo(old_cxt); MemoryContextReset(current_call_data->tmp_cxt); } SV * plperl_spi_query(char *query) { SV *cursor; /* * Execute the query inside a sub-transaction, so we can cope with errors * sanely */ MemoryContext oldcontext = CurrentMemoryContext; ResourceOwner oldowner = CurrentResourceOwner; check_spi_usage_allowed(); BeginInternalSubTransaction(NULL); /* Want to run inside function's memory context */ MemoryContextSwitchTo(oldcontext); PG_TRY(); { void *plan; Portal portal; /* Make sure the query is validly encoded */ pg_verifymbstr(query, strlen(query), false); /* Create a cursor for the query */ plan = SPI_prepare(query, 0, NULL); if (plan == NULL) elog(ERROR, "SPI_prepare() failed:%s", SPI_result_code_string(SPI_result)); portal = SPI_cursor_open(NULL, plan, NULL, NULL, false); SPI_freeplan(plan); if (portal == NULL) elog(ERROR, "SPI_cursor_open() failed:%s", SPI_result_code_string(SPI_result)); cursor = newSVstring(portal->name); /* Commit the inner transaction, return to outer xact context */ ReleaseCurrentSubTransaction(); MemoryContextSwitchTo(oldcontext); CurrentResourceOwner = oldowner; /* * AtEOSubXact_SPI() should not have popped any SPI context, but just * in case it did, make sure we remain connected. */ SPI_restore_connection(); } PG_CATCH(); { ErrorData *edata; /* Save error info */ MemoryContextSwitchTo(oldcontext); edata = CopyErrorData(); FlushErrorState(); /* Abort the inner transaction */ RollbackAndReleaseCurrentSubTransaction(); MemoryContextSwitchTo(oldcontext); CurrentResourceOwner = oldowner; /* * If AtEOSubXact_SPI() popped any SPI context of the subxact, it will * have left us in a disconnected state. We need this hack to return * to connected state. */ SPI_restore_connection(); /* Punt the error to Perl */ croak("%s", edata->message); /* Can't get here, but keep compiler quiet */ return NULL; } PG_END_TRY(); return cursor; } SV * plperl_spi_fetchrow(char *cursor) { SV *row; /* * Execute the FETCH inside a sub-transaction, so we can cope with errors * sanely */ MemoryContext oldcontext = CurrentMemoryContext; ResourceOwner oldowner = CurrentResourceOwner; check_spi_usage_allowed(); BeginInternalSubTransaction(NULL); /* Want to run inside function's memory context */ MemoryContextSwitchTo(oldcontext); PG_TRY(); { Portal p = SPI_cursor_find(cursor); if (!p) { row = &PL_sv_undef; } else { SPI_cursor_fetch(p, true, 1); if (SPI_processed == 0) { SPI_cursor_close(p); row = &PL_sv_undef; } else { row = plperl_hash_from_tuple(SPI_tuptable->vals[0], SPI_tuptable->tupdesc); } SPI_freetuptable(SPI_tuptable); } /* Commit the inner transaction, return to outer xact context */ ReleaseCurrentSubTransaction(); MemoryContextSwitchTo(oldcontext); CurrentResourceOwner = oldowner; /* * AtEOSubXact_SPI() should not have popped any SPI context, but just * in case it did, make sure we remain connected. */ SPI_restore_connection(); } PG_CATCH(); { ErrorData *edata; /* Save error info */ MemoryContextSwitchTo(oldcontext); edata = CopyErrorData(); FlushErrorState(); /* Abort the inner transaction */ RollbackAndReleaseCurrentSubTransaction(); MemoryContextSwitchTo(oldcontext); CurrentResourceOwner = oldowner; /* * If AtEOSubXact_SPI() popped any SPI context of the subxact, it will * have left us in a disconnected state. We need this hack to return * to connected state. */ SPI_restore_connection(); /* Punt the error to Perl */ croak("%s", edata->message); /* Can't get here, but keep compiler quiet */ return NULL; } PG_END_TRY(); return row; } void plperl_spi_cursor_close(char *cursor) { Portal p; check_spi_usage_allowed(); p = SPI_cursor_find(cursor); if (p) SPI_cursor_close(p); } SV * plperl_spi_prepare(char *query, int argc, SV **argv) { plperl_query_desc *qdesc; plperl_query_entry *hash_entry; bool found; void *plan; int i; MemoryContext oldcontext = CurrentMemoryContext; ResourceOwner oldowner = CurrentResourceOwner; check_spi_usage_allowed(); BeginInternalSubTransaction(NULL); MemoryContextSwitchTo(oldcontext); /************************************************************ * Allocate the new querydesc structure ************************************************************/ qdesc = (plperl_query_desc *) malloc(sizeof(plperl_query_desc)); MemSet(qdesc, 0, sizeof(plperl_query_desc)); snprintf(qdesc->qname, sizeof(qdesc->qname), "%p", qdesc); qdesc->nargs = argc; qdesc->argtypes = (Oid *) malloc(argc * sizeof(Oid)); qdesc->arginfuncs = (FmgrInfo *) malloc(argc * sizeof(FmgrInfo)); qdesc->argtypioparams = (Oid *) malloc(argc * sizeof(Oid)); PG_TRY(); { /************************************************************ * Resolve argument type names and then look them up by oid * in the system cache, and remember the required information * for input conversion. ************************************************************/ for (i = 0; i < argc; i++) { Oid typId, typInput, typIOParam; int32 typmod; parseTypeString(SvPV_nolen(argv[i]), &typId, &typmod); getTypeInputInfo(typId, &typInput, &typIOParam); qdesc->argtypes[i] = typId; perm_fmgr_info(typInput, &(qdesc->arginfuncs[i])); qdesc->argtypioparams[i] = typIOParam; } /* Make sure the query is validly encoded */ pg_verifymbstr(query, strlen(query), false); /************************************************************ * Prepare the plan and check for errors ************************************************************/ plan = SPI_prepare(query, argc, qdesc->argtypes); if (plan == NULL) elog(ERROR, "SPI_prepare() failed:%s", SPI_result_code_string(SPI_result)); /************************************************************ * Save the plan into permanent memory (right now it's in the * SPI procCxt, which will go away at function end). ************************************************************/ qdesc->plan = SPI_saveplan(plan); if (qdesc->plan == NULL) elog(ERROR, "SPI_saveplan() failed: %s", SPI_result_code_string(SPI_result)); /* Release the procCxt copy to avoid within-function memory leak */ SPI_freeplan(plan); /* Commit the inner transaction, return to outer xact context */ ReleaseCurrentSubTransaction(); MemoryContextSwitchTo(oldcontext); CurrentResourceOwner = oldowner; /* * AtEOSubXact_SPI() should not have popped any SPI context, but just * in case it did, make sure we remain connected. */ SPI_restore_connection(); } PG_CATCH(); { ErrorData *edata; free(qdesc->argtypes); free(qdesc->arginfuncs); free(qdesc->argtypioparams); free(qdesc); /* Save error info */ MemoryContextSwitchTo(oldcontext); edata = CopyErrorData(); FlushErrorState(); /* Abort the inner transaction */ RollbackAndReleaseCurrentSubTransaction(); MemoryContextSwitchTo(oldcontext); CurrentResourceOwner = oldowner; /* * If AtEOSubXact_SPI() popped any SPI context of the subxact, it will * have left us in a disconnected state. We need this hack to return * to connected state. */ SPI_restore_connection(); /* Punt the error to Perl */ croak("%s", edata->message); /* Can't get here, but keep compiler quiet */ return NULL; } PG_END_TRY(); /************************************************************ * Insert a hashtable entry for the plan and return * the key to the caller. ************************************************************/ hash_entry = hash_search(plperl_query_hash, qdesc->qname, HASH_ENTER, &found); hash_entry->query_data = qdesc; return newSVstring(qdesc->qname); } HV * plperl_spi_exec_prepared(char *query, HV *attr, int argc, SV **argv) { HV *ret_hv; SV **sv; int i, limit, spi_rv; char *nulls; Datum *argvalues; plperl_query_desc *qdesc; plperl_query_entry *hash_entry; /* * Execute the query inside a sub-transaction, so we can cope with errors * sanely */ MemoryContext oldcontext = CurrentMemoryContext; ResourceOwner oldowner = CurrentResourceOwner; check_spi_usage_allowed(); BeginInternalSubTransaction(NULL); /* Want to run inside function's memory context */ MemoryContextSwitchTo(oldcontext); PG_TRY(); { /************************************************************ * Fetch the saved plan descriptor, see if it's o.k. ************************************************************/ hash_entry = hash_search(plperl_query_hash, query, HASH_FIND, NULL); if (hash_entry == NULL) elog(ERROR, "spi_exec_prepared: Invalid prepared query passed"); qdesc = hash_entry->query_data; if (qdesc == NULL) elog(ERROR, "spi_exec_prepared: panic - plperl_query_hash value vanished"); if (qdesc->nargs != argc) elog(ERROR, "spi_exec_prepared: expected %d argument(s), %d passed", qdesc->nargs, argc); /************************************************************ * Parse eventual attributes ************************************************************/ limit = 0; if (attr != NULL) { sv = hv_fetch_string(attr, "limit"); if (*sv && SvIOK(*sv)) limit = SvIV(*sv); } /************************************************************ * Set up arguments ************************************************************/ if (argc > 0) { nulls = (char *) palloc(argc); argvalues = (Datum *) palloc(argc * sizeof(Datum)); } else { nulls = NULL; argvalues = NULL; } for (i = 0; i < argc; i++) { if (SvOK(argv[i])) { argvalues[i] = InputFunctionCall(&qdesc->arginfuncs[i], sv2text_mbverified(argv[i]), qdesc->argtypioparams[i], -1); nulls[i] = ' '; } else { argvalues[i] = InputFunctionCall(&qdesc->arginfuncs[i], NULL, qdesc->argtypioparams[i], -1); nulls[i] = 'n'; } } /************************************************************ * go ************************************************************/ spi_rv = SPI_execute_plan(qdesc->plan, argvalues, nulls, current_call_data->prodesc->fn_readonly, limit); ret_hv = plperl_spi_execute_fetch_result(SPI_tuptable, SPI_processed, spi_rv); if (argc > 0) { pfree(argvalues); pfree(nulls); } /* Commit the inner transaction, return to outer xact context */ ReleaseCurrentSubTransaction(); MemoryContextSwitchTo(oldcontext); CurrentResourceOwner = oldowner; /* * AtEOSubXact_SPI() should not have popped any SPI context, but just * in case it did, make sure we remain connected. */ SPI_restore_connection(); } PG_CATCH(); { ErrorData *edata; /* Save error info */ MemoryContextSwitchTo(oldcontext); edata = CopyErrorData(); FlushErrorState(); /* Abort the inner transaction */ RollbackAndReleaseCurrentSubTransaction(); MemoryContextSwitchTo(oldcontext); CurrentResourceOwner = oldowner; /* * If AtEOSubXact_SPI() popped any SPI context of the subxact, it will * have left us in a disconnected state. We need this hack to return * to connected state. */ SPI_restore_connection(); /* Punt the error to Perl */ croak("%s", edata->message); /* Can't get here, but keep compiler quiet */ return NULL; } PG_END_TRY(); return ret_hv; } SV * plperl_spi_query_prepared(char *query, int argc, SV **argv) { int i; char *nulls; Datum *argvalues; plperl_query_desc *qdesc; plperl_query_entry *hash_entry; SV *cursor; Portal portal = NULL; /* * Execute the query inside a sub-transaction, so we can cope with errors * sanely */ MemoryContext oldcontext = CurrentMemoryContext; ResourceOwner oldowner = CurrentResourceOwner; check_spi_usage_allowed(); BeginInternalSubTransaction(NULL); /* Want to run inside function's memory context */ MemoryContextSwitchTo(oldcontext); PG_TRY(); { /************************************************************ * Fetch the saved plan descriptor, see if it's o.k. ************************************************************/ hash_entry = hash_search(plperl_query_hash, query, HASH_FIND, NULL); if (hash_entry == NULL) elog(ERROR, "spi_exec_prepared: Invalid prepared query passed"); qdesc = hash_entry->query_data; if (qdesc == NULL) elog(ERROR, "spi_query_prepared: panic - plperl_query_hash value vanished"); if (qdesc->nargs != argc) elog(ERROR, "spi_query_prepared: expected %d argument(s), %d passed", qdesc->nargs, argc); /************************************************************ * Set up arguments ************************************************************/ if (argc > 0) { nulls = (char *) palloc(argc); argvalues = (Datum *) palloc(argc * sizeof(Datum)); } else { nulls = NULL; argvalues = NULL; } for (i = 0; i < argc; i++) { if (SvOK(argv[i])) { argvalues[i] = InputFunctionCall(&qdesc->arginfuncs[i], sv2text_mbverified(argv[i]), qdesc->argtypioparams[i], -1); nulls[i] = ' '; } else { argvalues[i] = InputFunctionCall(&qdesc->arginfuncs[i], NULL, qdesc->argtypioparams[i], -1); nulls[i] = 'n'; } } /************************************************************ * go ************************************************************/ portal = SPI_cursor_open(NULL, qdesc->plan, argvalues, nulls, current_call_data->prodesc->fn_readonly); if (argc > 0) { pfree(argvalues); pfree(nulls); } if (portal == NULL) elog(ERROR, "SPI_cursor_open() failed:%s", SPI_result_code_string(SPI_result)); cursor = newSVstring(portal->name); /* Commit the inner transaction, return to outer xact context */ ReleaseCurrentSubTransaction(); MemoryContextSwitchTo(oldcontext); CurrentResourceOwner = oldowner; /* * AtEOSubXact_SPI() should not have popped any SPI context, but just * in case it did, make sure we remain connected. */ SPI_restore_connection(); } PG_CATCH(); { ErrorData *edata; /* Save error info */ MemoryContextSwitchTo(oldcontext); edata = CopyErrorData(); FlushErrorState(); /* Abort the inner transaction */ RollbackAndReleaseCurrentSubTransaction(); MemoryContextSwitchTo(oldcontext); CurrentResourceOwner = oldowner; /* * If AtEOSubXact_SPI() popped any SPI context of the subxact, it will * have left us in a disconnected state. We need this hack to return * to connected state. */ SPI_restore_connection(); /* Punt the error to Perl */ croak("%s", edata->message); /* Can't get here, but keep compiler quiet */ return NULL; } PG_END_TRY(); return cursor; } void plperl_spi_freeplan(char *query) { void *plan; plperl_query_desc *qdesc; plperl_query_entry *hash_entry; check_spi_usage_allowed(); hash_entry = hash_search(plperl_query_hash, query, HASH_FIND, NULL); if (hash_entry == NULL) elog(ERROR, "spi_exec_prepared: Invalid prepared query passed"); qdesc = hash_entry->query_data; if (qdesc == NULL) elog(ERROR, "spi_exec_freeplan: panic - plperl_query_hash value vanished"); /* * free all memory before SPI_freeplan, so if it dies, nothing will be * left over */ hash_search(plperl_query_hash, query, HASH_REMOVE, NULL); plan = qdesc->plan; free(qdesc->argtypes); free(qdesc->arginfuncs); free(qdesc->argtypioparams); free(qdesc); SPI_freeplan(plan); } /* * Create a new SV from a string assumed to be in the current database's * encoding. */ static SV * newSVstring(const char *str) { SV *sv; sv = newSVpv(str, 0); #if PERL_BCDVERSION >= 0x5006000L if (GetDatabaseEncoding() == PG_UTF8) SvUTF8_on(sv); #endif return sv; } /* * Store an SV into a hash table under a key that is a string assumed to be * in the current database's encoding. */ static SV ** hv_store_string(HV *hv, const char *key, SV *val) { int32 klen = strlen(key); /* * This seems nowhere documented, but under Perl 5.8.0 and up, hv_store() * recognizes a negative klen parameter as meaning a UTF-8 encoded key. It * does not appear that hashes track UTF-8-ness of keys at all in Perl * 5.6. */ #if PERL_BCDVERSION >= 0x5008000L if (GetDatabaseEncoding() == PG_UTF8) klen = -klen; #endif return hv_store(hv, key, klen, val, 0); } /* * Fetch an SV from a hash table under a key that is a string assumed to be * in the current database's encoding. */ static SV ** hv_fetch_string(HV *hv, const char *key) { int32 klen = strlen(key); /* See notes in hv_store_string */ #if PERL_BCDVERSION >= 0x5008000L if (GetDatabaseEncoding() == PG_UTF8) klen = -klen; #endif return hv_fetch(hv, key, klen, 0); } /* * Provide function name for PL/Perl execution errors */ static void plperl_exec_callback(void *arg) { char *procname = (char *) arg; if (procname) errcontext("PL/Perl function \"%s\"", procname); } /* * Provide function name for PL/Perl compilation errors */ static void plperl_compile_callback(void *arg) { char *procname = (char *) arg; if (procname) errcontext("compilation of PL/Perl function \"%s\"", procname); } /* * Provide error context for the inline handler */ static void plperl_inline_callback(void *arg) { errcontext("PL/Perl anonymous code block"); } /* * Perl's own setlocal() copied from POSIX.xs * (needed because of the calls to new_*()) */ #ifdef WIN32 static char * setlocale_perl(int category, char *locale) { char *RETVAL = setlocale(category, locale); if (RETVAL) { #ifdef USE_LOCALE_CTYPE if (category == LC_CTYPE #ifdef LC_ALL || category == LC_ALL #endif ) { char *newctype; #ifdef LC_ALL if (category == LC_ALL) newctype = setlocale(LC_CTYPE, NULL); else #endif newctype = RETVAL; new_ctype(newctype); } #endif /* USE_LOCALE_CTYPE */ #ifdef USE_LOCALE_COLLATE if (category == LC_COLLATE #ifdef LC_ALL || category == LC_ALL #endif ) { char *newcoll; #ifdef LC_ALL if (category == LC_ALL) newcoll = setlocale(LC_COLLATE, NULL); else #endif newcoll = RETVAL; new_collate(newcoll); } #endif /* USE_LOCALE_COLLATE */ #ifdef USE_LOCALE_NUMERIC if (category == LC_NUMERIC #ifdef LC_ALL || category == LC_ALL #endif ) { char *newnum; #ifdef LC_ALL if (category == LC_ALL) newnum = setlocale(LC_NUMERIC, NULL); else #endif newnum = RETVAL; new_numeric(newnum); } #endif /* USE_LOCALE_NUMERIC */ } return RETVAL; } #endif