Eterm os_putenv_2(Process* p, Eterm key, Eterm value) { char def_buf[1024]; char *buf = NULL; int sep_ix, i, key_len, value_len, tot_len; key_len = is_string(key); if (!key_len) { error: if (buf) erts_free(ERTS_ALC_T_TMP, (void *) buf); BIF_ERROR(p, BADARG); } if (is_nil(value)) value_len = 0; else { value_len = is_string(value); if (!value_len) goto error; } tot_len = key_len + 1 + value_len + 1; if (tot_len <= sizeof(def_buf)) buf = &def_buf[0]; else buf = erts_alloc(ERTS_ALC_T_TMP, tot_len); i = intlist_to_buf(key, buf, key_len); if (i != key_len) erl_exit(1, "%s:%d: Internal error\n", __FILE__, __LINE__); sep_ix = i; buf[i++] = '='; if (is_not_nil(value)) i += intlist_to_buf(value, &buf[i], value_len); if (i != key_len + 1 + value_len) erl_exit(1, "%s:%d: Internal error\n", __FILE__, __LINE__); buf[i] = '\0'; if (erts_sys_putenv(buf, sep_ix)) { goto error; } if (buf != &def_buf[0]) erts_free(ERTS_ALC_T_TMP, (void *) buf); BIF_RET(am_true); }
Eterm os_getenv_1(Process* p, Eterm key) { Eterm str; int len, res; char *key_str, *val; char buf[1024]; size_t val_size = sizeof(buf); len = is_string(key); if (!len) { BIF_ERROR(p, BADARG); } /* Leave at least one byte in buf for value */ key_str = len < sizeof(buf)-2 ? &buf[0] : erts_alloc(ERTS_ALC_T_TMP, len+1); if (intlist_to_buf(key, key_str, len) != len) erl_exit(1, "%s:%d: Internal error\n", __FILE__, __LINE__); key_str[len] = '\0'; if (key_str != &buf[0]) val = &buf[0]; else { val_size -= len + 1; val = &buf[len + 1]; } res = erts_sys_getenv(key_str, val, &val_size); if (res < 0) { no_var: str = am_false; } else { Eterm* hp; if (res > 0) { val = erts_alloc(ERTS_ALC_T_TMP, val_size); while (1) { res = erts_sys_getenv(key_str, val, &val_size); if (res == 0) break; else if (res < 0) goto no_var; else val = erts_realloc(ERTS_ALC_T_TMP, val, val_size); } } if (val_size) hp = HAlloc(p, val_size*2); str = buf_to_intlist(&hp, val, val_size, NIL); } if (key_str != &buf[0]) erts_free(ERTS_ALC_T_TMP, key_str); if (val < &buf[0] || &buf[sizeof(buf)-1] < val) erts_free(ERTS_ALC_T_TMP, val); BIF_RET(str); }
BIF_RETTYPE load_nif_2(BIF_ALIST_2) { static const char bad_lib[] = "bad_lib"; static const char reload[] = "reload"; static const char upgrade[] = "upgrade"; char* lib_name = NULL; void* handle = NULL; void* init_func; ErlNifEntry* entry = NULL; ErlNifEnv env; int len, i, err; Module* mod; Eterm mod_atom; Eterm f_atom; BeamInstr* caller; ErtsSysDdllError errdesc = ERTS_SYS_DDLL_ERROR_INIT; Eterm ret = am_ok; int veto; struct erl_module_nif* lib = NULL; len = list_length(BIF_ARG_1); if (len < 0) { BIF_ERROR(BIF_P, BADARG); } lib_name = (char *) erts_alloc(ERTS_ALC_T_TMP, len + 1); if (intlist_to_buf(BIF_ARG_1, lib_name, len) != len) { erts_free(ERTS_ALC_T_TMP, lib_name); BIF_ERROR(BIF_P, BADARG); } lib_name[len] = '\0'; /* Block system (is this the right place to do it?) */ erts_smp_proc_unlock(BIF_P, ERTS_PROC_LOCK_MAIN); erts_smp_thr_progress_block(); /* Find calling module */ ASSERT(BIF_P->current != NULL); ASSERT(BIF_P->current[0] == am_erlang && BIF_P->current[1] == am_load_nif && BIF_P->current[2] == 2); caller = find_function_from_pc(BIF_P->cp); ASSERT(caller != NULL); mod_atom = caller[0]; ASSERT(is_atom(mod_atom)); mod=erts_get_module(mod_atom); ASSERT(mod != NULL); if (!in_area(caller, mod->code, mod->code_length)) { ASSERT(in_area(caller, mod->old_code, mod->old_code_length)); ret = load_nif_error(BIF_P, "old_code", "Calling load_nif from old " "module '%T' not allowed", mod_atom); } else if ((err=erts_sys_ddll_open2(lib_name, &handle, &errdesc)) != ERL_DE_NO_ERROR) { const char slogan[] = "Failed to load NIF library"; if (strstr(errdesc.str, lib_name) != NULL) { ret = load_nif_error(BIF_P, "load_failed", "%s: '%s'", slogan, errdesc.str); } else { ret = load_nif_error(BIF_P, "load_failed", "%s %s: '%s'", slogan, lib_name, errdesc.str); } } else if (erts_sys_ddll_load_nif_init(handle, &init_func, &errdesc) != ERL_DE_NO_ERROR) { ret = load_nif_error(BIF_P, bad_lib, "Failed to find library init" " function: '%s'", errdesc.str); } else if ((add_taint(mod_atom), (entry = erts_sys_ddll_call_nif_init(init_func)) == NULL)) { ret = load_nif_error(BIF_P, bad_lib, "Library init-call unsuccessful"); } else if (entry->major != ERL_NIF_MAJOR_VERSION || entry->minor > ERL_NIF_MINOR_VERSION) { ret = load_nif_error(BIF_P, bad_lib, "Library version (%d.%d) not compatible (with %d.%d).", entry->major, entry->minor, ERL_NIF_MAJOR_VERSION, ERL_NIF_MINOR_VERSION); } else if (entry->minor >= 1 && sys_strcmp(entry->vm_variant, ERL_NIF_VM_VARIANT) != 0) { ret = load_nif_error(BIF_P, bad_lib, "Library (%s) not compiled for " "this vm variant (%s).", entry->vm_variant, ERL_NIF_VM_VARIANT); } else if (!erts_is_atom_str((char*)entry->name, mod_atom)) { ret = load_nif_error(BIF_P, bad_lib, "Library module name '%s' does not" " match calling module '%T'", entry->name, mod_atom); } else { /*erts_fprintf(stderr, "Found module %T\r\n", mod_atom);*/ for (i=0; i < entry->num_of_funcs && ret==am_ok; i++) { BeamInstr** code_pp; ErlNifFunc* f = &entry->funcs[i]; if (!erts_atom_get(f->name, sys_strlen(f->name), &f_atom) || (code_pp = get_func_pp(mod->code, f_atom, f->arity))==NULL) { ret = load_nif_error(BIF_P,bad_lib,"Function not found %T:%s/%u", mod_atom, f->name, f->arity); } else if (code_pp[1] - code_pp[0] < (5+3)) { ret = load_nif_error(BIF_P,bad_lib,"No explicit call to load_nif" " in module (%T:%s/%u to small)", mod_atom, entry->funcs[i].name, entry->funcs[i].arity); } /*erts_fprintf(stderr, "Found NIF %T:%s/%u\r\n", mod_atom, entry->funcs[i].name, entry->funcs[i].arity);*/ } } if (ret != am_ok) { goto error; } /* Call load, reload or upgrade: */ lib = erts_alloc(ERTS_ALC_T_NIF, sizeof(struct erl_module_nif)); lib->handle = handle; lib->entry = entry; erts_refc_init(&lib->rt_cnt, 0); erts_refc_init(&lib->rt_dtor_cnt, 0); lib->mod = mod; env.mod_nif = lib; if (mod->nif != NULL) { /* Reload */ int k; lib->priv_data = mod->nif->priv_data; ASSERT(mod->nif->entry != NULL); if (entry->reload == NULL) { ret = load_nif_error(BIF_P,reload,"Reload not supported by this NIF library."); goto error; } /* Check that no NIF is removed */ for (k=0; k < mod->nif->entry->num_of_funcs; k++) { ErlNifFunc* old_func = &mod->nif->entry->funcs[k]; for (i=0; i < entry->num_of_funcs; i++) { if (old_func->arity == entry->funcs[i].arity && sys_strcmp(old_func->name, entry->funcs[i].name) == 0) { break; } } if (i == entry->num_of_funcs) { ret = load_nif_error(BIF_P,reload,"Reloaded library missing " "function %T:%s/%u\r\n", mod_atom, old_func->name, old_func->arity); goto error; } } erts_pre_nif(&env, BIF_P, lib); veto = entry->reload(&env, &lib->priv_data, BIF_ARG_2); erts_post_nif(&env); if (veto) { ret = load_nif_error(BIF_P, reload, "Library reload-call unsuccessful."); } else { mod->nif->entry = NULL; /* to prevent 'unload' callback */ erts_unload_nif(mod->nif); } } else { lib->priv_data = NULL; if (mod->old_nif != NULL) { /* Upgrade */ void* prev_old_data = mod->old_nif->priv_data; if (entry->upgrade == NULL) { ret = load_nif_error(BIF_P, upgrade, "Upgrade not supported by this NIF library."); goto error; } erts_pre_nif(&env, BIF_P, lib); veto = entry->upgrade(&env, &lib->priv_data, &mod->old_nif->priv_data, BIF_ARG_2); erts_post_nif(&env); if (veto) { mod->old_nif->priv_data = prev_old_data; ret = load_nif_error(BIF_P, upgrade, "Library upgrade-call unsuccessful."); } /*else if (mod->old_nif->priv_data != prev_old_data) { refresh_cached_nif_data(mod->old_code, mod->old_nif); }*/ } else if (entry->load != NULL) { /* Initial load */ erts_pre_nif(&env, BIF_P, lib); veto = entry->load(&env, &lib->priv_data, BIF_ARG_2); erts_post_nif(&env); if (veto) { ret = load_nif_error(BIF_P, "load", "Library load-call unsuccessful."); } } } if (ret == am_ok) { /* ** Everything ok, patch the beam code with op_call_nif */ mod->nif = lib; for (i=0; i < entry->num_of_funcs; i++) { BeamInstr* code_ptr; erts_atom_get(entry->funcs[i].name, sys_strlen(entry->funcs[i].name), &f_atom); code_ptr = *get_func_pp(mod->code, f_atom, entry->funcs[i].arity); if (code_ptr[1] == 0) { code_ptr[5+0] = (BeamInstr) BeamOp(op_call_nif); } else { /* Function traced, patch the original instruction word */ BpData** bps = (BpData**) code_ptr[1]; BpData* bp = (BpData*) bps[erts_bp_sched2ix()]; bp->orig_instr = (BeamInstr) BeamOp(op_call_nif); } code_ptr[5+1] = (BeamInstr) entry->funcs[i].fptr; code_ptr[5+2] = (BeamInstr) lib; } } else { error: ASSERT(ret != am_ok); if (lib != NULL) { erts_free(ERTS_ALC_T_NIF, lib); } if (handle != NULL) { erts_sys_ddll_close(handle); } erts_sys_ddll_free_error(&errdesc); } erts_smp_thr_progress_unblock(); erts_smp_proc_lock(BIF_P, ERTS_PROC_LOCK_MAIN); erts_free(ERTS_ALC_T_TMP, lib_name); BIF_RET(ret); }
static Port * open_port(Process* p, Eterm name, Eterm settings, int *err_typep, int *err_nump) { Sint i; Eterm option; Uint arity; Eterm* tp; Uint* nargs; erts_driver_t* driver; char* name_buf = NULL; SysDriverOpts opts; Sint linebuf; Eterm edir = NIL; byte dir[MAXPATHLEN]; erts_aint32_t sflgs = 0; Port *port; /* These are the defaults */ opts.packet_bytes = 0; opts.use_stdio = 1; opts.redir_stderr = 0; opts.read_write = 0; opts.hide_window = 0; opts.wd = NULL; opts.envir = NULL; opts.exit_status = 0; opts.overlapped_io = 0; opts.spawn_type = ERTS_SPAWN_ANY; opts.argv = NULL; opts.parallelism = erts_port_parallelism; linebuf = 0; *err_nump = 0; if (is_not_list(settings) && is_not_nil(settings)) { goto badarg; } /* * Parse the settings. */ if (is_not_nil(settings)) { nargs = list_val(settings); while (1) { if (is_tuple_arity(*nargs, 2)) { tp = tuple_val(*nargs); arity = *tp++; option = *tp++; if (option == am_packet) { if (is_not_small(*tp)) { goto badarg; } opts.packet_bytes = signed_val(*tp); switch (opts.packet_bytes) { case 1: case 2: case 4: break; default: goto badarg; } } else if (option == am_line) { if (is_not_small(*tp)) { goto badarg; } linebuf = signed_val(*tp); if (linebuf <= 0) { goto badarg; } } else if (option == am_env) { byte* bytes; if ((bytes = convert_environment(p, *tp)) == NULL) { goto badarg; } opts.envir = (char *) bytes; } else if (option == am_args) { char **av; char **oav = opts.argv; if ((av = convert_args(*tp)) == NULL) { goto badarg; } opts.argv = av; if (oav) { opts.argv[0] = oav[0]; oav[0] = erts_default_arg0; free_args(oav); } } else if (option == am_arg0) { char *a0; if ((a0 = erts_convert_filename_to_native(*tp, NULL, 0, ERTS_ALC_T_TMP, 1, 1, NULL)) == NULL) { goto badarg; } if (opts.argv == NULL) { opts.argv = erts_alloc(ERTS_ALC_T_TMP, 2 * sizeof(char **)); opts.argv[0] = a0; opts.argv[1] = NULL; } else { if (opts.argv[0] != erts_default_arg0) { erts_free(ERTS_ALC_T_TMP, opts.argv[0]); } opts.argv[0] = a0; } } else if (option == am_cd) { edir = *tp; } else if (option == am_parallelism) { if (*tp == am_true) opts.parallelism = 1; else if (*tp == am_false) opts.parallelism = 0; else goto badarg; } else { goto badarg; } } else if (*nargs == am_stream) { opts.packet_bytes = 0; } else if (*nargs == am_use_stdio) { opts.use_stdio = 1; } else if (*nargs == am_stderr_to_stdout) { opts.redir_stderr = 1; } else if (*nargs == am_line) { linebuf = 512; } else if (*nargs == am_nouse_stdio) { opts.use_stdio = 0; } else if (*nargs == am_binary) { sflgs |= ERTS_PORT_SFLG_BINARY_IO; } else if (*nargs == am_in) { opts.read_write |= DO_READ; } else if (*nargs == am_out) { opts.read_write |= DO_WRITE; } else if (*nargs == am_eof) { sflgs |= ERTS_PORT_SFLG_SOFT_EOF; } else if (*nargs == am_hide) { opts.hide_window = 1; } else if (*nargs == am_exit_status) { opts.exit_status = 1; } else if (*nargs == am_overlapped_io) { opts.overlapped_io = 1; } else { goto badarg; } if (is_nil(*++nargs)) break; if (is_not_list(*nargs)) { goto badarg; } nargs = list_val(*nargs); } } if (opts.read_write == 0) /* implement default */ opts.read_write = DO_READ|DO_WRITE; /* Mutually exclusive arguments. */ if((linebuf && opts.packet_bytes) || (opts.redir_stderr && !opts.use_stdio)) { goto badarg; } /* * Parse the first argument and start the appropriate driver. */ if (is_atom(name) || (i = is_string(name))) { /* a vanilla port */ if (is_atom(name)) { name_buf = (char *) erts_alloc(ERTS_ALC_T_TMP, atom_tab(atom_val(name))->len+1); sys_memcpy((void *) name_buf, (void *) atom_tab(atom_val(name))->name, atom_tab(atom_val(name))->len); name_buf[atom_tab(atom_val(name))->len] = '\0'; } else { name_buf = (char *) erts_alloc(ERTS_ALC_T_TMP, i + 1); if (intlist_to_buf(name, name_buf, i) != i) erts_exit(ERTS_ERROR_EXIT, "%s:%d: Internal error\n", __FILE__, __LINE__); name_buf[i] = '\0'; } driver = &vanilla_driver; } else { if (is_not_tuple(name)) { goto badarg; /* Not a process or fd port */ } tp = tuple_val(name); arity = *tp++; if (arity == make_arityval(0)) { goto badarg; } if (*tp == am_spawn || *tp == am_spawn_driver || *tp == am_spawn_executable) { /* A process port */ int encoding; if (arity != make_arityval(2)) { goto badarg; } name = tp[1]; encoding = erts_get_native_filename_encoding(); /* Do not convert the command to utf-16le yet, do that in win32 specific code */ /* since the cmd is used for comparsion with drivers names and copied to port info */ if (encoding == ERL_FILENAME_WIN_WCHAR) { encoding = ERL_FILENAME_UTF8; } if ((name_buf = erts_convert_filename_to_encoding(name, NULL, 0, ERTS_ALC_T_TMP,0,1, encoding, NULL, 0)) == NULL) { goto badarg; } if (*tp == am_spawn_driver) { opts.spawn_type = ERTS_SPAWN_DRIVER; } else if (*tp == am_spawn_executable) { opts.spawn_type = ERTS_SPAWN_EXECUTABLE; } driver = &spawn_driver; } else if (*tp == am_fd) { /* An fd port */ int n; struct Sint_buf sbuf; char* p; if (arity != make_arityval(3)) { goto badarg; } if (is_not_small(tp[1]) || is_not_small(tp[2])) { goto badarg; } opts.ifd = unsigned_val(tp[1]); opts.ofd = unsigned_val(tp[2]); /* Syntesize name from input and output descriptor. */ name_buf = erts_alloc(ERTS_ALC_T_TMP, 2*sizeof(struct Sint_buf) + 2); p = Sint_to_buf(opts.ifd, &sbuf); n = sys_strlen(p); sys_strncpy(name_buf, p, n); name_buf[n] = '/'; p = Sint_to_buf(opts.ofd, &sbuf); sys_strcpy(name_buf+n+1, p); driver = &fd_driver; } else { goto badarg; } } if ((driver != &spawn_driver && opts.argv != NULL) || (driver == &spawn_driver && opts.spawn_type != ERTS_SPAWN_EXECUTABLE && opts.argv != NULL)) { /* Argument vector only if explicit spawn_executable */ goto badarg; } if (edir != NIL) { if ((opts.wd = erts_convert_filename_to_native(edir, NULL, 0, ERTS_ALC_T_TMP,0,1,NULL)) == NULL) { goto badarg; } } if (driver != &spawn_driver && opts.exit_status) { goto badarg; } if (IS_TRACED_FL(p, F_TRACE_SCHED_PROCS)) { trace_sched(p, ERTS_PROC_LOCK_MAIN, am_out); } erts_smp_proc_unlock(p, ERTS_PROC_LOCK_MAIN); port = erts_open_driver(driver, p->common.id, name_buf, &opts, err_typep, err_nump); #ifdef USE_VM_PROBES if (port && DTRACE_ENABLED(port_open)) { DTRACE_CHARBUF(process_str, DTRACE_TERM_BUF_SIZE); DTRACE_CHARBUF(port_str, DTRACE_TERM_BUF_SIZE); dtrace_proc_str(p, process_str); erts_snprintf(port_str, sizeof(DTRACE_CHARBUF_NAME(port_str)), "%T", port->common.id); DTRACE3(port_open, process_str, name_buf, port_str); } #endif if (port && IS_TRACED_FL(port, F_TRACE_PORTS)) trace_port(port, am_getting_linked, p->common.id); erts_smp_proc_lock(p, ERTS_PROC_LOCK_MAIN); if (IS_TRACED_FL(p, F_TRACE_SCHED_PROCS)) { trace_sched(p, ERTS_PROC_LOCK_MAIN, am_in); } if (!port) { DEBUGF(("open_driver returned (%d:%d)\n", err_typep ? *err_typep : 4711, err_nump ? *err_nump : 4711)); goto do_return; } if (linebuf && port->linebuf == NULL){ port->linebuf = allocate_linebuf(linebuf); sflgs |= ERTS_PORT_SFLG_LINEBUF_IO; } if (sflgs) erts_atomic32_read_bor_relb(&port->state, sflgs); do_return: if (name_buf) erts_free(ERTS_ALC_T_TMP, (void *) name_buf); if (opts.argv) { free_args(opts.argv); } if (opts.wd && opts.wd != ((char *)dir)) { erts_free(ERTS_ALC_T_TMP, (void *) opts.wd); } return port; badarg: if (err_typep) *err_typep = -3; if (err_nump) *err_nump = BADARG; port = NULL; goto do_return; }
static int open_port(Process* p, Eterm name, Eterm settings, int *err_nump) { #define OPEN_PORT_ERROR(VAL) do { port_num = (VAL); goto do_return; } while (0) int i, port_num; Eterm option; Uint arity; Eterm* tp; Uint* nargs; erts_driver_t* driver; char* name_buf = NULL; SysDriverOpts opts; int binary_io; int soft_eof; Sint linebuf; Eterm edir = NIL; byte dir[MAXPATHLEN]; /* These are the defaults */ opts.packet_bytes = 0; opts.use_stdio = 1; opts.redir_stderr = 0; opts.read_write = 0; opts.hide_window = 0; opts.wd = NULL; opts.envir = NULL; opts.exit_status = 0; opts.overlapped_io = 0; opts.spawn_type = ERTS_SPAWN_ANY; opts.argv = NULL; binary_io = 0; soft_eof = 0; linebuf = 0; *err_nump = 0; if (is_not_list(settings) && is_not_nil(settings)) { goto badarg; } /* * Parse the settings. */ if (is_not_nil(settings)) { nargs = list_val(settings); while (1) { if (is_tuple_arity(*nargs, 2)) { tp = tuple_val(*nargs); arity = *tp++; option = *tp++; if (option == am_packet) { if (is_not_small(*tp)) { goto badarg; } opts.packet_bytes = signed_val(*tp); switch (opts.packet_bytes) { case 1: case 2: case 4: break; default: goto badarg; } } else if (option == am_line) { if (is_not_small(*tp)) { goto badarg; } linebuf = signed_val(*tp); if (linebuf <= 0) { goto badarg; } } else if (option == am_env) { byte* bytes; if ((bytes = convert_environment(p, *tp)) == NULL) { goto badarg; } opts.envir = (char *) bytes; } else if (option == am_args) { char **av; char **oav = opts.argv; if ((av = convert_args(*tp)) == NULL) { goto badarg; } opts.argv = av; if (oav) { opts.argv[0] = oav[0]; oav[0] = erts_default_arg0; free_args(oav); } } else if (option == am_arg0) { char *a0; if ((a0 = erts_convert_filename_to_native(*tp, ERTS_ALC_T_TMP, 1)) == NULL) { goto badarg; } if (opts.argv == NULL) { opts.argv = erts_alloc(ERTS_ALC_T_TMP, 2 * sizeof(char **)); opts.argv[0] = a0; opts.argv[1] = NULL; } else { if (opts.argv[0] != erts_default_arg0) { erts_free(ERTS_ALC_T_TMP, opts.argv[0]); } opts.argv[0] = a0; } } else if (option == am_cd) { edir = *tp; } else { goto badarg; } } else if (*nargs == am_stream) { opts.packet_bytes = 0; } else if (*nargs == am_use_stdio) { opts.use_stdio = 1; } else if (*nargs == am_stderr_to_stdout) { opts.redir_stderr = 1; } else if (*nargs == am_line) { linebuf = 512; } else if (*nargs == am_nouse_stdio) { opts.use_stdio = 0; } else if (*nargs == am_binary) { binary_io = 1; } else if (*nargs == am_in) { opts.read_write |= DO_READ; } else if (*nargs == am_out) { opts.read_write |= DO_WRITE; } else if (*nargs == am_eof) { soft_eof = 1; } else if (*nargs == am_hide) { opts.hide_window = 1; } else if (*nargs == am_exit_status) { opts.exit_status = 1; } else if (*nargs == am_overlapped_io) { opts.overlapped_io = 1; } else { goto badarg; } if (is_nil(*++nargs)) break; if (is_not_list(*nargs)) { goto badarg; } nargs = list_val(*nargs); } } if (opts.read_write == 0) /* implement default */ opts.read_write = DO_READ|DO_WRITE; /* Mutually exclusive arguments. */ if((linebuf && opts.packet_bytes) || (opts.redir_stderr && !opts.use_stdio)) { goto badarg; } /* * Parse the first argument and start the appropriate driver. */ if (is_atom(name) || (i = is_string(name))) { /* a vanilla port */ if (is_atom(name)) { name_buf = (char *) erts_alloc(ERTS_ALC_T_TMP, atom_tab(atom_val(name))->len+1); sys_memcpy((void *) name_buf, (void *) atom_tab(atom_val(name))->name, atom_tab(atom_val(name))->len); name_buf[atom_tab(atom_val(name))->len] = '\0'; } else { name_buf = (char *) erts_alloc(ERTS_ALC_T_TMP, i + 1); if (intlist_to_buf(name, name_buf, i) != i) erl_exit(1, "%s:%d: Internal error\n", __FILE__, __LINE__); name_buf[i] = '\0'; } driver = &vanilla_driver; } else { if (is_not_tuple(name)) { goto badarg; /* Not a process or fd port */ } tp = tuple_val(name); arity = *tp++; if (arity == make_arityval(0)) { goto badarg; } if (*tp == am_spawn || *tp == am_spawn_driver) { /* A process port */ if (arity != make_arityval(2)) { goto badarg; } name = tp[1]; if (is_atom(name)) { name_buf = (char *) erts_alloc(ERTS_ALC_T_TMP, atom_tab(atom_val(name))->len+1); sys_memcpy((void *) name_buf, (void *) atom_tab(atom_val(name))->name, atom_tab(atom_val(name))->len); name_buf[atom_tab(atom_val(name))->len] = '\0'; } else if ((i = is_string(name))) { name_buf = (char *) erts_alloc(ERTS_ALC_T_TMP, i + 1); if (intlist_to_buf(name, name_buf, i) != i) erl_exit(1, "%s:%d: Internal error\n", __FILE__, __LINE__); name_buf[i] = '\0'; } else { goto badarg; } if (*tp == am_spawn_driver) { opts.spawn_type = ERTS_SPAWN_DRIVER; } driver = &spawn_driver; } else if (*tp == am_spawn_executable) { /* A program */ /* * {spawn_executable,Progname} */ if (arity != make_arityval(2)) { goto badarg; } name = tp[1]; if ((name_buf = erts_convert_filename_to_native(name,ERTS_ALC_T_TMP,0)) == NULL) { goto badarg; } opts.spawn_type = ERTS_SPAWN_EXECUTABLE; driver = &spawn_driver; } else if (*tp == am_fd) { /* An fd port */ int n; struct Sint_buf sbuf; char* p; if (arity != make_arityval(3)) { goto badarg; } if (is_not_small(tp[1]) || is_not_small(tp[2])) { goto badarg; } opts.ifd = unsigned_val(tp[1]); opts.ofd = unsigned_val(tp[2]); /* Syntesize name from input and output descriptor. */ name_buf = erts_alloc(ERTS_ALC_T_TMP, 2*sizeof(struct Sint_buf) + 2); p = Sint_to_buf(opts.ifd, &sbuf); n = sys_strlen(p); sys_strncpy(name_buf, p, n); name_buf[n] = '/'; p = Sint_to_buf(opts.ofd, &sbuf); sys_strcpy(name_buf+n+1, p); driver = &fd_driver; } else { goto badarg; } } if ((driver != &spawn_driver && opts.argv != NULL) || (driver == &spawn_driver && opts.spawn_type != ERTS_SPAWN_EXECUTABLE && opts.argv != NULL)) { /* Argument vector only if explicit spawn_executable */ goto badarg; } if (edir != NIL) { /* A working directory is expressed differently if spawn_executable, i.e. Unicode is handles for spawn_executable... */ if (opts.spawn_type != ERTS_SPAWN_EXECUTABLE) { Eterm iolist; DeclareTmpHeap(heap,4,p); int r; UseTmpHeap(4,p); heap[0] = edir; heap[1] = make_list(heap+2); heap[2] = make_small(0); heap[3] = NIL; iolist = make_list(heap); r = io_list_to_buf(iolist, (char*) dir, MAXPATHLEN); UnUseTmpHeap(4,p); if (r < 0) { goto badarg; } opts.wd = (char *) dir; } else { if ((opts.wd = erts_convert_filename_to_native(edir,ERTS_ALC_T_TMP,0)) == NULL) { goto badarg; } } } if (driver != &spawn_driver && opts.exit_status) { goto badarg; } if (IS_TRACED_FL(p, F_TRACE_SCHED_PROCS)) { trace_virtual_sched(p, am_out); } erts_smp_proc_unlock(p, ERTS_PROC_LOCK_MAIN); port_num = erts_open_driver(driver, p->id, name_buf, &opts, err_nump); #ifdef USE_VM_PROBES if (port_num >= 0 && DTRACE_ENABLED(port_open)) { DTRACE_CHARBUF(process_str, DTRACE_TERM_BUF_SIZE); DTRACE_CHARBUF(port_str, DTRACE_TERM_BUF_SIZE); dtrace_proc_str(p, process_str); erts_snprintf(port_str, sizeof(port_str), "%T", erts_port[port_num].id); DTRACE3(port_open, process_str, name_buf, port_str); } #endif erts_smp_proc_lock(p, ERTS_PROC_LOCK_MAIN); if (port_num < 0) { DEBUGF(("open_driver returned %d(%d)\n", port_num, *err_nump)); if (IS_TRACED_FL(p, F_TRACE_SCHED_PROCS)) { trace_virtual_sched(p, am_in); } OPEN_PORT_ERROR(port_num); } if (IS_TRACED_FL(p, F_TRACE_SCHED_PROCS)) { trace_virtual_sched(p, am_in); } if (binary_io) { erts_port_status_bor_set(&erts_port[port_num], ERTS_PORT_SFLG_BINARY_IO); } if (soft_eof) { erts_port_status_bor_set(&erts_port[port_num], ERTS_PORT_SFLG_SOFT_EOF); } if (linebuf && erts_port[port_num].linebuf == NULL){ erts_port[port_num].linebuf = allocate_linebuf(linebuf); erts_port_status_bor_set(&erts_port[port_num], ERTS_PORT_SFLG_LINEBUF_IO); } do_return: if (name_buf) erts_free(ERTS_ALC_T_TMP, (void *) name_buf); if (opts.argv) { free_args(opts.argv); } if (opts.wd && opts.wd != ((char *)dir)) { erts_free(ERTS_ALC_T_TMP, (void *) opts.wd); } return port_num; badarg: *err_nump = BADARG; OPEN_PORT_ERROR(-3); goto do_return; #undef OPEN_PORT_ERROR }