/** * @file NCDInterpreter.c * @author Ambroz Bizjak * * @section LICENSE * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the author nor the * names of its contributors may be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "NCDInterpreter.h" #include #define SSTATE_CHILD 1 #define SSTATE_ADULT 2 #define SSTATE_DYING 3 #define SSTATE_FORGOTTEN 4 #define PSTATE_WORKING 0 #define PSTATE_UP 1 #define PSTATE_WAITING 2 #define PSTATE_TERMINATING 3 #define PROCESS_STATE_MASK 0x3 #define PROCESS_ERROR_MASK 0x4 #define PROCESS_STATE_SHIFT 0 #define PROCESS_ERROR_SHIFT 2 struct statement { NCDModuleInst inst; NCDValMem args_mem; char *mem; int mem_size; int i; int state; }; struct process { NCDInterpreter *interp; NCDInterpProcess *iprocess; NCDModuleProcess *module_process; BSmallTimer wait_timer; BSmallPending work_job; LinkedList1Node list_node; // node in processes int ap; int fp; int num_statements; int state2_error1; struct statement statements[]; }; static void start_terminate (NCDInterpreter *o, int exit_code); static char * implode_id_strings (NCDInterpreter *o, const NCD_string_id_t *names, size_t num_names, char del); static int alloc_base_type_strings (NCDInterpreter *o, const struct NCDModuleGroup *g); static int process_new (NCDInterpreter *o, NCDInterpProcess *iprocess, NCDModuleProcess *module_process); static void process_free (struct process *p, NCDModuleProcess **out_mp); static int process_state (struct process *p); static void process_set_state (struct process *p, int state); static int process_error (struct process *p); static void process_set_error (struct process *p, int error); static void process_start_terminating (struct process *p); static int process_have_child (struct process *p); static void process_assert_pointers (struct process *p); static void process_logfunc (struct process *p); static void process_log (struct process *p, int level, const char *fmt, ...); static void process_schedule_work (struct process *p); static void process_work_job_handler (struct process *p); static int replace_placeholders_callback (void *arg, int plid, NCDValMem *mem, NCDValRef *out); static void process_advance (struct process *p); static void process_wait_timer_handler (BSmallTimer *timer); static int process_find_object (struct process *p, int pos, NCD_string_id_t name, NCDObject *out_object); static int process_resolve_object_expr (struct process *p, int pos, const NCD_string_id_t *names, size_t num_names, NCDObject *out_object); static int process_resolve_variable_expr (struct process *p, int pos, const NCD_string_id_t *names, size_t num_names, NCDValMem *mem, NCDValRef *out_value); static void statement_logfunc (struct statement *ps); static void statement_log (struct statement *ps, int level, const char *fmt, ...); static struct process * statement_process (struct statement *ps); static int statement_mem_is_allocated (struct statement *ps); static int statement_mem_size (struct statement *ps); static int statement_allocate_memory (struct statement *ps, int alloc_size); static void statement_instance_func_event (NCDModuleInst *inst, int event); static int statement_instance_func_getobj (NCDModuleInst *inst, NCD_string_id_t objname, NCDObject *out_object); static int statement_instance_func_initprocess (void *vinterp, NCDModuleProcess *mp, NCD_string_id_t template_name); static void statement_instance_logfunc (NCDModuleInst *inst); static void statement_instance_func_interp_exit (void *vinterp, int exit_code); static int statement_instance_func_interp_getargs (void *vinterp, NCDValMem *mem, NCDValRef *out_value); static btime_t statement_instance_func_interp_getretrytime (void *vinterp); static void process_moduleprocess_func_event (struct process *p, int event); static int process_moduleprocess_func_getobj (struct process *p, NCD_string_id_t name, NCDObject *out_object); int NCDInterpreter_Init (NCDInterpreter *o, const char *program, size_t program_len, struct NCDInterpreter_params params) { ASSERT(program); ASSERT(params.handler_finished); ASSERT(params.num_extra_args >= 0); ASSERT(params.reactor); #ifndef BADVPN_NO_PROCESS ASSERT(params.manager); #endif #ifndef BADVPN_NO_UDEV ASSERT(params.umanager); #endif #ifndef BADVPN_NO_RANDOM ASSERT(params.random2); #endif // set params o->params = params; // set not terminating o->terminating = 0; // init string index if (!NCDStringIndex_Init(&o->string_index)) { BLog(BLOG_ERROR, "NCDStringIndex_Init failed"); goto fail1aaa; } // init method index if (!NCDMethodIndex_Init(&o->method_index, &o->string_index)) { BLog(BLOG_ERROR, "NCDMethodIndex_Init failed"); goto fail1b; } // init module index if (!NCDModuleIndex_Init(&o->mindex)) { BLog(BLOG_ERROR, "NCDModuleIndex_Init failed"); goto fail1c; } // add module groups to index and allocate string id's for base_type's for (const struct NCDModuleGroup **g = ncd_modules; *g; g++) { if (!NCDModuleIndex_AddGroup(&o->mindex, *g, &o->method_index)) { BLog(BLOG_ERROR, "NCDModuleIndex_AddGroup failed"); goto fail2; } if (!alloc_base_type_strings(o, *g)) { goto fail2; } } // parse config file if (!NCDConfigParser_Parse((char *)program, program_len, &o->program)) { BLog(BLOG_ERROR, "NCDConfigParser_Parse failed"); goto fail2; } // desugar if (!NCDSugar_Desugar(&o->program)) { BLog(BLOG_ERROR, "NCDSugar_Desugar failed"); goto fail4; } // init placeholder database if (!NCDPlaceholderDb_Init(&o->placeholder_db, &o->string_index)) { BLog(BLOG_ERROR, "NCDPlaceholderDb_Init failed"); goto fail4; } // init interp program if (!NCDInterpProg_Init(&o->iprogram, &o->program, &o->string_index, &o->placeholder_db, &o->mindex, &o->method_index)) { BLog(BLOG_ERROR, "NCDInterpProg_Init failed"); goto fail4a; } // init pointers to global resources in out struct NCDModuleInst_iparams. // Don't initialize any callback at this point as these must not be called // from globalinit functions of modules. o->module_iparams.reactor = params.reactor; #ifndef BADVPN_NO_PROCESS o->module_iparams.manager = params.manager; #endif #ifndef BADVPN_NO_UDEV o->module_iparams.umanager = params.umanager; #endif #ifndef BADVPN_NO_RANDOM o->module_iparams.random2 = params.random2; #endif o->module_iparams.string_index = &o->string_index; // init modules o->num_inited_modules = 0; for (const struct NCDModuleGroup **g = ncd_modules; *g; g++) { // map strings if ((*g)->strings && !NCDStringIndex_GetRequests(&o->string_index, (*g)->strings)) { BLog(BLOG_ERROR, "NCDStringIndex_GetRequests failed for some module"); goto fail5; } // call func_globalinit if ((*g)->func_globalinit && !(*g)->func_globalinit(&o->module_iparams)) { BLog(BLOG_ERROR, "globalinit failed for some module"); goto fail5; } o->num_inited_modules++; } // init the rest of the module parameters structures o->module_params.func_event = statement_instance_func_event; o->module_params.func_getobj = statement_instance_func_getobj; o->module_params.logfunc = (BLog_logfunc)statement_instance_logfunc; o->module_params.iparams = &o->module_iparams; o->module_iparams.user = o; o->module_iparams.func_initprocess = statement_instance_func_initprocess; o->module_iparams.func_interp_exit = statement_instance_func_interp_exit; o->module_iparams.func_interp_getargs = statement_instance_func_interp_getargs; o->module_iparams.func_interp_getretrytime = statement_instance_func_interp_getretrytime; // init processes list LinkedList1_Init(&o->processes); // init processes for (NCDProcess *p = NCDProgram_FirstProcess(&o->program); p; p = NCDProgram_NextProcess(&o->program, p)) { if (NCDProcess_IsTemplate(p)) { continue; } // get string id for process name NCD_string_id_t name_id = NCDStringIndex_Lookup(&o->string_index, NCDProcess_Name(p)); ASSERT(name_id >= 0) // find iprocess NCDInterpProcess *iprocess = NCDInterpProg_FindProcess(&o->iprogram, name_id); ASSERT(iprocess) if (!process_new(o, iprocess, NULL)) { BLog(BLOG_ERROR, "failed to initialize process, exiting"); goto fail6; } } DebugObject_Init(&o->d_obj); return 1; fail6:; LinkedList1Node *ln; while (ln = LinkedList1_GetFirst(&o->processes)) { struct process *p = UPPER_OBJECT(ln, struct process, list_node); NCDModuleProcess *mp; process_free(p, &mp); ASSERT(!mp) } fail5: // free modules while (o->num_inited_modules > 0) { const struct NCDModuleGroup **g = &ncd_modules[o->num_inited_modules - 1]; if ((*g)->func_globalfree) { (*g)->func_globalfree(); } o->num_inited_modules--; } // free interp program NCDInterpProg_Free(&o->iprogram); fail4a: // free placeholder database NCDPlaceholderDb_Free(&o->placeholder_db); fail4: // free program AST NCDProgram_Free(&o->program); fail2: // free module index NCDModuleIndex_Free(&o->mindex); fail1c: // free method index NCDMethodIndex_Free(&o->method_index); fail1b: // free string index NCDStringIndex_Free(&o->string_index); fail1aaa: return 0; } void NCDInterpreter_Free (NCDInterpreter *o) { DebugObject_Free(&o->d_obj); ASSERT(LinkedList1_IsEmpty(&o->processes)) LinkedList1Node *ln; while (ln = LinkedList1_GetFirst(&o->processes)) { struct process *p = UPPER_OBJECT(ln, struct process, list_node); NCDModuleProcess *mp; process_free(p, &mp); ASSERT(!mp) } // free modules while (o->num_inited_modules > 0) { const struct NCDModuleGroup **g = &ncd_modules[o->num_inited_modules - 1]; if ((*g)->func_globalfree) { (*g)->func_globalfree(); } o->num_inited_modules--; } // free interp program NCDInterpProg_Free(&o->iprogram); // free placeholder database NCDPlaceholderDb_Free(&o->placeholder_db); // free program AST NCDProgram_Free(&o->program); // free module index NCDModuleIndex_Free(&o->mindex); // free method index NCDMethodIndex_Free(&o->method_index); // free string index NCDStringIndex_Free(&o->string_index); } void NCDInterpreter_RequestShutdown (NCDInterpreter *o, int exit_code) { DebugObject_Access(&o->d_obj); start_terminate(o, exit_code); } void start_terminate (NCDInterpreter *o, int exit_code) { o->main_exit_code = exit_code; if (o->terminating) { return; } o->terminating = 1; if (LinkedList1_IsEmpty(&o->processes)) { o->params.handler_finished(o->params.user, o->main_exit_code); return; } // start terminating non-template processes for (LinkedList1Node *ln = LinkedList1_GetFirst(&o->processes); ln; ln = LinkedList1Node_Next(ln)) { struct process *p = UPPER_OBJECT(ln, struct process, list_node); if (p->module_process) { continue; } if (process_state(p) != PSTATE_TERMINATING) { process_start_terminating(p); } } } char * implode_id_strings (NCDInterpreter *o, const NCD_string_id_t *names, size_t num_names, char del) { ExpString str; if (!ExpString_Init(&str)) { goto fail0; } int is_first = 1; while (num_names > 0) { if (!is_first && !ExpString_AppendChar(&str, del)) { goto fail1; } const char *name_str = NCDStringIndex_Value(&o->string_index, *names); if (!ExpString_Append(&str, name_str)) { goto fail1; } names++; num_names--; is_first = 0; } return ExpString_Get(&str); fail1: ExpString_Free(&str); fail0: return NULL; } int alloc_base_type_strings (NCDInterpreter *o, const struct NCDModuleGroup *g) { for (struct NCDModule *m = g->modules; m->type; m++) { const char *type = (m->base_type ? m->base_type : m->type); ASSERT(type) m->base_type_id = NCDStringIndex_Get(&o->string_index, type); if (m->base_type_id < 0) { BLog(BLOG_ERROR, "NCDStringIndex_Get failed"); return 0; } } return 1; } int process_new (NCDInterpreter *o, NCDInterpProcess *iprocess, NCDModuleProcess *module_process) { ASSERT(iprocess) // get number of statements int num_statements = NCDInterpProcess_NumStatements(iprocess); // get size of preallocated memory int mem_size = NCDInterpProcess_PreallocSize(iprocess); if (mem_size < 0) { goto fail0; } // start with size of process structure size_t alloc_size = sizeof(struct process); // add size of statements array if (num_statements > SIZE_MAX / sizeof(struct statement)) { goto fail0; } if (!BSizeAdd(&alloc_size, num_statements * sizeof(struct statement))) { goto fail0; } // align for preallocated memory if (!BSizeAlign(&alloc_size, BMAX_ALIGN)) { goto fail0; } size_t mem_off = alloc_size; // add size of preallocated memory if (mem_size > SIZE_MAX || !BSizeAdd(&alloc_size, mem_size)) { goto fail0; } // allocate memory struct process *p = BAlloc(alloc_size); if (!p) { goto fail0; } // set variables p->interp = o; p->iprocess = iprocess; p->module_process = module_process; p->ap = 0; p->fp = 0; p->num_statements = num_statements; p->state2_error1 = PSTATE_WORKING << PROCESS_STATE_SHIFT; // set module process handlers if (p->module_process) { NCDModuleProcess_Interp_SetHandlers(p->module_process, p, (NCDModuleProcess_interp_func_event)process_moduleprocess_func_event, (NCDModuleProcess_interp_func_getobj)process_moduleprocess_func_getobj); } // init statements char *mem = (char *)p + mem_off; for (int i = 0; i < num_statements; i++) { struct statement *ps = &p->statements[i]; ps->i = i; ps->state = SSTATE_FORGOTTEN; ps->mem_size = NCDInterpProcess_StatementPreallocSize(iprocess, i); ps->mem = (ps->mem_size == 0 ? NULL : mem + NCDInterpProcess_StatementPreallocOffset(iprocess, i)); } // init timer BSmallTimer_Init(&p->wait_timer, process_wait_timer_handler); // init work job BSmallPending_Init(&p->work_job, BReactor_PendingGroup(p->interp->params.reactor), (BSmallPending_handler)process_work_job_handler, p); // insert to processes list LinkedList1_Append(&o->processes, &p->list_node); // schedule work BSmallPending_Set(&p->work_job, BReactor_PendingGroup(p->interp->params.reactor)); return 1; fail0: BLog(BLOG_ERROR, "failed to allocate memory for process %s", NCDInterpProcess_Name(iprocess)); return 0; } void process_free (struct process *p, NCDModuleProcess **out_mp) { ASSERT(p->ap == 0) ASSERT(p->fp == 0) ASSERT(out_mp) // give module process to caller so it can inform the process creator that the process has terminated *out_mp = p->module_process; // free statement memory for (int i = 0; i < p->num_statements; i++) { struct statement *ps = &p->statements[i]; if (statement_mem_is_allocated(ps)) { free(ps->mem); } } // remove from processes list LinkedList1_Remove(&p->interp->processes, &p->list_node); // free work job BSmallPending_Free(&p->work_job, BReactor_PendingGroup(p->interp->params.reactor)); // free timer BReactor_RemoveSmallTimer(p->interp->params.reactor, &p->wait_timer); // free strucure BFree(p); } int process_state (struct process *p) { return (p->state2_error1 & PROCESS_STATE_MASK) >> PROCESS_STATE_SHIFT; } void process_set_state (struct process *p, int state) { p->state2_error1 = (p->state2_error1 & ~PROCESS_STATE_MASK) | (state << PROCESS_STATE_SHIFT); } int process_error (struct process *p) { return (p->state2_error1 & PROCESS_ERROR_MASK) >> PROCESS_ERROR_SHIFT; } void process_set_error (struct process *p, int error) { p->state2_error1 = (p->state2_error1 & ~PROCESS_ERROR_MASK) | (error << PROCESS_ERROR_SHIFT); } void process_start_terminating (struct process *p) { ASSERT(process_state(p) != PSTATE_TERMINATING) // set terminating process_set_state(p, PSTATE_TERMINATING); // schedule work process_schedule_work(p); } int process_have_child (struct process *p) { return (p->ap > 0 && p->statements[p->ap - 1].state == SSTATE_CHILD); } void process_assert_pointers (struct process *p) { ASSERT(p->ap <= p->num_statements) ASSERT(p->fp >= p->ap) ASSERT(p->fp <= p->num_statements) #ifndef NDEBUG // check AP for (int i = 0; i < p->ap; i++) { if (i == p->ap - 1) { ASSERT(p->statements[i].state == SSTATE_ADULT || p->statements[i].state == SSTATE_CHILD) } else { ASSERT(p->statements[i].state == SSTATE_ADULT) } } // check FP int fp = p->num_statements; while (fp > 0 && p->statements[fp - 1].state == SSTATE_FORGOTTEN) { fp--; } ASSERT(p->fp == fp) #endif } void process_logfunc (struct process *p) { BLog_Append("process %s: ", NCDInterpProcess_Name(p->iprocess)); } void process_log (struct process *p, int level, const char *fmt, ...) { va_list vl; va_start(vl, fmt); BLog_LogViaFuncVarArg((BLog_logfunc)process_logfunc, p, BLOG_CURRENT_CHANNEL, level, fmt, vl); va_end(vl); } void process_schedule_work (struct process *p) { process_assert_pointers(p); // stop timer BReactor_RemoveSmallTimer(p->interp->params.reactor, &p->wait_timer); // schedule work BSmallPending_Set(&p->work_job, BReactor_PendingGroup(p->interp->params.reactor)); } void process_work_job_handler (struct process *p) { process_assert_pointers(p); ASSERT(!BSmallTimer_IsRunning(&p->wait_timer)) int pstate = process_state(p); if (pstate == PSTATE_WAITING) { return; } if (pstate == PSTATE_TERMINATING) { if (p->fp == 0) { NCDInterpreter *interp = p->interp; // free process NCDModuleProcess *mp; process_free(p, &mp); // if program is terminating amd there are no more processes, exit program if (interp->terminating && LinkedList1_IsEmpty(&interp->processes)) { ASSERT(!mp) interp->params.handler_finished(interp->params.user, interp->main_exit_code); return; } // inform the process creator that the process has terminated if (mp) { NCDModuleProcess_Interp_Terminated(mp); return; } return; } // order the last living statement to die, if needed struct statement *ps = &p->statements[p->fp - 1]; ASSERT(ps->state != SSTATE_FORGOTTEN) if (ps->state != SSTATE_DYING) { statement_log(ps, BLOG_INFO, "killing"); // set statement state DYING ps->state = SSTATE_DYING; // update AP if (p->ap > ps->i) { p->ap = ps->i; } // order it to die NCDModuleInst_Die(&ps->inst); return; } return; } // process was up but is no longer? if (pstate == PSTATE_UP && !(!process_have_child(p) && p->ap == p->num_statements)) { // if we have module process, wait for its permission to continue if (p->module_process) { // set state waiting process_set_state(p, PSTATE_WAITING); // set module process down NCDModuleProcess_Interp_Down(p->module_process); return; } // set state working process_set_state(p, PSTATE_WORKING); pstate = PSTATE_WORKING; } // cleaning up? if (p->ap < p->fp) { // order the last living statement to die, if needed struct statement *ps = &p->statements[p->fp - 1]; if (ps->state != SSTATE_DYING) { statement_log(ps, BLOG_INFO, "killing"); // set statement state DYING ps->state = SSTATE_DYING; // order it to die NCDModuleInst_Die(&ps->inst); return; } return; } // clean? if (process_have_child(p)) { ASSERT(p->ap > 0) ASSERT(p->ap <= p->num_statements) struct statement *ps = &p->statements[p->ap - 1]; ASSERT(ps->state == SSTATE_CHILD) statement_log(ps, BLOG_INFO, "clean"); // report clean NCDModuleInst_Clean(&ps->inst); return; } // advancing? if (p->ap < p->num_statements) { ASSERT(process_state(p) == PSTATE_WORKING) struct statement *ps = &p->statements[p->ap]; ASSERT(ps->state == SSTATE_FORGOTTEN) if (process_error(p)) { statement_log(ps, BLOG_INFO, "waiting after error"); // clear error process_set_error(p, 0); // set wait timer BReactor_SetSmallTimer(p->interp->params.reactor, &p->wait_timer, BTIMER_SET_RELATIVE, p->interp->params.retry_time); } else { // advance process_advance(p); } return; } // have we just finished? if (pstate == PSTATE_WORKING) { process_log(p, BLOG_INFO, "victory"); // set state up process_set_state(p, PSTATE_UP); // set module process up if (p->module_process) { NCDModuleProcess_Interp_Up(p->module_process); return; } } } int replace_placeholders_callback (void *arg, int plid, NCDValMem *mem, NCDValRef *out) { struct statement *ps = arg; ASSERT(plid >= 0) ASSERT(mem) ASSERT(out) struct process *p = statement_process(ps); const NCD_string_id_t *varnames; size_t num_names; NCDPlaceholderDb_GetVariable(&p->interp->placeholder_db, plid, &varnames, &num_names); return process_resolve_variable_expr(statement_process(ps), ps->i, varnames, num_names, mem, out); } void process_advance (struct process *p) { process_assert_pointers(p); ASSERT(p->ap == p->fp) ASSERT(!process_have_child(p)) ASSERT(p->ap < p->num_statements) ASSERT(!process_error(p)) ASSERT(!BSmallPending_IsSet(&p->work_job)) ASSERT(!BSmallTimer_IsRunning(&p->wait_timer)) ASSERT(process_state(p) == PSTATE_WORKING) struct statement *ps = &p->statements[p->ap]; ASSERT(ps->state == SSTATE_FORGOTTEN) statement_log(ps, BLOG_INFO, "initializing"); // need to determine the module and object to use it on (if it's a method) const struct NCDModule *module; NCDObject object; NCDObject *object_ptr = NULL; // get object names, e.g. "my.cat" in "my.cat->meow();" // (or NULL if this is not a method statement) const NCD_string_id_t *objnames; size_t num_objnames; NCDInterpProcess_StatementObjNames(p->iprocess, p->ap, &objnames, &num_objnames); if (!objnames) { // not a method; module is already known by NCDInterpProcess module = NCDInterpProcess_StatementGetSimpleModule(p->iprocess, p->ap); if (!module) { statement_log(ps, BLOG_ERROR, "unknown simple statement: %s", NCDInterpProcess_StatementCmdName(p->iprocess, p->ap)); goto fail0; } } else { // get object if (!process_resolve_object_expr(p, p->ap, objnames, num_objnames, &object)) { goto fail0; } object_ptr = &object; // get object type NCD_string_id_t object_type = NCDObject_Type(&object); if (object_type < 0) { statement_log(ps, BLOG_ERROR, "cannot call method on object with no type"); goto fail0; } // find module based on type of object module = NCDInterpProcess_StatementGetMethodModule(p->iprocess, p->ap, object_type, &p->interp->method_index); if (!module) { const char *type_str = NCDStringIndex_Value(&p->interp->string_index, object_type); statement_log(ps, BLOG_ERROR, "unknown method statement: %s::%s", type_str, NCDInterpProcess_StatementCmdName(p->iprocess, p->ap)); goto fail0; } } // register alloc size for future preallocations NCDInterpProcess_StatementBumpAllocSize(p->iprocess, p->ap, module->alloc_size); // copy arguments NCDValRef args; NCDValReplaceProg prog; if (!NCDInterpProcess_CopyStatementArgs(p->iprocess, ps->i, &ps->args_mem, &args, &prog)) { statement_log(ps, BLOG_ERROR, "NCDInterpProcess_CopyStatementArgs failed"); goto fail0; } // replace placeholders with values of variables if (!NCDValReplaceProg_Execute(prog, &ps->args_mem, replace_placeholders_callback, ps)) { statement_log(ps, BLOG_ERROR, "failed to replace variables in arguments with values"); goto fail1; } // allocate memory if (!statement_allocate_memory(ps, module->alloc_size)) { statement_log(ps, BLOG_ERROR, "failed to allocate memory"); goto fail1; } char *mem = (module->alloc_size == 0 ? NULL : ps->mem); // set statement state CHILD ps->state = SSTATE_CHILD; // increment AP p->ap++; // increment FP p->fp++; process_assert_pointers(p); // initialize module instance NCDModuleInst_Init(&ps->inst, module, mem, object_ptr, args, &p->interp->module_params); return; fail1: NCDValMem_Free(&ps->args_mem); fail0: // set error process_set_error(p, 1); // schedule work to start the timer process_schedule_work(p); } void process_wait_timer_handler (BSmallTimer *timer) { struct process *p = UPPER_OBJECT(timer, struct process, wait_timer); process_assert_pointers(p); ASSERT(p->ap == p->fp) ASSERT(!process_have_child(p)) ASSERT(p->ap < p->num_statements) ASSERT(!process_error(p)) ASSERT(!BSmallPending_IsSet(&p->work_job)) ASSERT(process_state(p) == PSTATE_WORKING) process_log(p, BLOG_INFO, "retrying"); // advance process_advance(p); } int process_find_object (struct process *p, int pos, NCD_string_id_t name, NCDObject *out_object) { ASSERT(pos >= 0) ASSERT(pos <= p->num_statements) ASSERT(out_object) int i = NCDInterpProcess_FindStatement(p->iprocess, pos, name); if (i >= 0) { struct statement *ps = &p->statements[i]; ASSERT(i < p->num_statements) if (ps->state == SSTATE_FORGOTTEN) { process_log(p, BLOG_ERROR, "statement (%d) is uninitialized", i); return 0; } *out_object = NCDModuleInst_Object(&ps->inst); return 1; } if (p->module_process && NCDModuleProcess_Interp_GetSpecialObj(p->module_process, name, out_object)) { return 1; } return 0; } int process_resolve_object_expr (struct process *p, int pos, const NCD_string_id_t *names, size_t num_names, NCDObject *out_object) { ASSERT(pos >= 0) ASSERT(pos <= p->num_statements) ASSERT(names) ASSERT(num_names > 0) ASSERT(out_object) NCDObject object; if (!process_find_object(p, pos, names[0], &object)) { goto fail; } if (!NCDObject_ResolveObjExprCompact(&object, names + 1, num_names - 1, out_object)) { goto fail; } return 1; fail:; char *name = implode_id_strings(p->interp, names, num_names, '.'); process_log(p, BLOG_ERROR, "failed to resolve object (%s) from position %zu", (name ? name : ""), pos); free(name); return 0; } int process_resolve_variable_expr (struct process *p, int pos, const NCD_string_id_t *names, size_t num_names, NCDValMem *mem, NCDValRef *out_value) { ASSERT(pos >= 0) ASSERT(pos <= p->num_statements) ASSERT(names) ASSERT(num_names > 0) ASSERT(mem) ASSERT(out_value) NCDObject object; if (!process_find_object(p, pos, names[0], &object)) { goto fail; } if (!NCDObject_ResolveVarExprCompact(&object, names + 1, num_names - 1, mem, out_value)) { goto fail; } return 1; fail:; char *name = implode_id_strings(p->interp, names, num_names, '.'); process_log(p, BLOG_ERROR, "failed to resolve variable (%s) from position %zu", (name ? name : ""), pos); free(name); return 0; } void statement_logfunc (struct statement *ps) { process_logfunc(statement_process(ps)); BLog_Append("statement %zu: ", ps->i); } void statement_log (struct statement *ps, int level, const char *fmt, ...) { if (!BLog_WouldLog(BLOG_CURRENT_CHANNEL, level)) { return; } va_list vl; va_start(vl, fmt); BLog_LogViaFuncVarArg((BLog_logfunc)statement_logfunc, ps, BLOG_CURRENT_CHANNEL, level, fmt, vl); va_end(vl); } struct process * statement_process (struct statement *ps) { return UPPER_OBJECT(ps - ps->i, struct process, statements); } int statement_mem_is_allocated (struct statement *ps) { return (ps->mem_size < 0); } int statement_mem_size (struct statement *ps) { return (ps->mem_size >= 0 ? ps->mem_size : -ps->mem_size); } int statement_allocate_memory (struct statement *ps, int alloc_size) { ASSERT(alloc_size >= 0) if (alloc_size > statement_mem_size(ps)) { if (statement_mem_is_allocated(ps)) { free(ps->mem); } if (!(ps->mem = malloc(alloc_size))) { statement_log(ps, BLOG_ERROR, "malloc failed"); ps->mem_size = 0; return 0; } ps->mem_size = -alloc_size; } return 1; } void statement_instance_func_event (NCDModuleInst *inst, int event) { struct statement *ps = UPPER_OBJECT(inst, struct statement, inst); ASSERT(ps->state == SSTATE_CHILD || ps->state == SSTATE_ADULT || ps->state == SSTATE_DYING) struct process *p = statement_process(ps); process_assert_pointers(p); // schedule work process_schedule_work(p); switch (event) { case NCDMODULE_EVENT_UP: { ASSERT(ps->state == SSTATE_CHILD) statement_log(ps, BLOG_INFO, "up"); // set state ADULT ps->state = SSTATE_ADULT; } break; case NCDMODULE_EVENT_DOWN: { ASSERT(ps->state == SSTATE_ADULT) statement_log(ps, BLOG_INFO, "down"); // set state CHILD ps->state = SSTATE_CHILD; // clear error if (ps->i < p->ap) { process_set_error(p, 0); } // update AP if (p->ap > ps->i + 1) { p->ap = ps->i + 1; } } break; case NCDMODULE_EVENT_DEAD: { int is_error = NCDModuleInst_HaveError(&ps->inst); if (is_error) { statement_log(ps, BLOG_ERROR, "died with error"); } else { statement_log(ps, BLOG_INFO, "died"); } // free instance NCDModuleInst_Free(&ps->inst); // free arguments memory NCDValMem_Free(&ps->args_mem); // set state FORGOTTEN ps->state = SSTATE_FORGOTTEN; // set error if (is_error && ps->i < p->ap) { process_set_error(p, 1); } // update AP if (p->ap > ps->i) { p->ap = ps->i; } // update FP while (p->fp > 0 && p->statements[p->fp - 1].state == SSTATE_FORGOTTEN) { p->fp--; } } break; } } int statement_instance_func_getobj (NCDModuleInst *inst, NCD_string_id_t objname, NCDObject *out_object) { struct statement *ps = UPPER_OBJECT(inst, struct statement, inst); ASSERT(ps->state != SSTATE_FORGOTTEN) return process_find_object(statement_process(ps), ps->i, objname, out_object); } int statement_instance_func_initprocess (void *vinterp, NCDModuleProcess* mp, NCD_string_id_t template_name) { NCDInterpreter *interp = vinterp; // find process NCDInterpProcess *iprocess = NCDInterpProg_FindProcess(&interp->iprogram, template_name); if (!iprocess) { const char *str = NCDStringIndex_Value(&interp->string_index, template_name); BLog(BLOG_ERROR, "no template named %s", str); return 0; } // make sure it's a template if (!NCDInterpProcess_IsTemplate(iprocess)) { const char *str = NCDStringIndex_Value(&interp->string_index, template_name); BLog(BLOG_ERROR, "need template to create a process, but %s is a process", str); return 0; } // create process if (!process_new(interp, iprocess, mp)) { const char *str = NCDStringIndex_Value(&interp->string_index, template_name); BLog(BLOG_ERROR, "failed to create process from template %s", str); return 0; } if (BLog_WouldLog(BLOG_INFO, BLOG_CURRENT_CHANNEL)) { const char *str = NCDStringIndex_Value(&interp->string_index, template_name); BLog(BLOG_INFO, "created process from template %s", str); } return 1; } void statement_instance_logfunc (NCDModuleInst *inst) { struct statement *ps = UPPER_OBJECT(inst, struct statement, inst); ASSERT(ps->state != SSTATE_FORGOTTEN) statement_logfunc(ps); BLog_Append("module: "); } void statement_instance_func_interp_exit (void *vinterp, int exit_code) { NCDInterpreter *interp = vinterp; start_terminate(interp, exit_code); } int statement_instance_func_interp_getargs (void *vinterp, NCDValMem *mem, NCDValRef *out_value) { NCDInterpreter *interp = vinterp; *out_value = NCDVal_NewList(mem, interp->params.num_extra_args); if (NCDVal_IsInvalid(*out_value)) { BLog(BLOG_ERROR, "NCDVal_NewList failed"); goto fail; } for (int i = 0; i < interp->params.num_extra_args; i++) { NCDValRef arg = NCDVal_NewString(mem, interp->params.extra_args[i]); if (NCDVal_IsInvalid(arg)) { BLog(BLOG_ERROR, "NCDVal_NewString failed"); goto fail; } NCDVal_ListAppend(*out_value, arg); } return 1; fail: *out_value = NCDVal_NewInvalid(); return 1; } btime_t statement_instance_func_interp_getretrytime (void *vinterp) { NCDInterpreter *interp = vinterp; return interp->params.retry_time; } void process_moduleprocess_func_event (struct process *p, int event) { ASSERT(p->module_process) switch (event) { case NCDMODULEPROCESS_INTERP_EVENT_CONTINUE: { ASSERT(process_state(p) == PSTATE_WAITING) // set state working process_set_state(p, PSTATE_WORKING); // schedule work process_schedule_work(p); } break; case NCDMODULEPROCESS_INTERP_EVENT_TERMINATE: { ASSERT(process_state(p) != PSTATE_TERMINATING) process_log(p, BLOG_INFO, "process termination requested"); // start terminating process_start_terminating(p); } break; default: ASSERT(0); } } int process_moduleprocess_func_getobj (struct process *p, NCD_string_id_t name, NCDObject *out_object) { ASSERT(p->module_process) return process_find_object(p, p->num_statements, name, out_object); }