/* -*- mode: C; coding: euc-japan -*- */ /* $OpenXM: OpenXM/src/ox_toolkit/ox.c,v 1.7 2000/01/17 19:55:55 ohara Exp $ */ /* 関数の名前付け規約(その2): (1) receive_cmo 関数はCMOタグとデータ本体を受信する. この関数は CMOタグの 値が事前に分からないときに使用する. 返り値として、cmo へのポインタを返す. (2) receive_cmo_XXX 関数は, CMOタグを親の関数で受信してから呼び出される関 数で、データ本体のみを受信し、cmo_XXX へのポインタを返す. しかも、 関数内部で new_cmo_XXX 関数を呼び出す. (3) send_cmo 関数はCMOタグとデータ本体を送信する. (4) send_cmo_XXX 関数はCMOタグを親の関数で送信してから呼び出される関数で、 データ本体のみを送信する. ---- (5) receive_ox_XXX 関数は存在しない(作らない). receive_cmo を利用する. (6) send_ox_XXX 関数は OX タグを含めて送信する. (7) ox_XXX 関数は一連の送受信を含むより抽象的な操作を表現する. ox_XXX 関数は、第一引数として、ox_file_t型の変数 sv をとる. (8) YYY_cmo 関数と YYY_cmo_XXX 関数の関係は次の通り: まず YYY_cmo 関数で cmo のタグを処理し、タグを除いた残りの部分を YYY_cmo_XXX 関数が処理する. cmo の内部に cmo_ZZZ へのポインタが あるときには、その種類によらずに YYY_cmo 関数を呼び出す. */ #include #include #include #include #include #include #include #include #include "mysocket.h" #include "ox.h" #include "parse.h" static int cmolen_cmo_int32(cmo_int32* c); static int cmolen_cmo_list(cmo_list* c); static int cmolen_cmo_mathcap(cmo_mathcap* c); static int cmolen_cmo_null(cmo_null* c); static int cmolen_cmo_string(cmo_string* c); static int cmolen_cmo_zz(cmo_zz* c); static int cmolen_cmo_monomial32(cmo_monomial32* c); static int dump_cmo_int32(cmo_int32* m); static int dump_cmo_list(cmo_list* m); static int dump_cmo_mathcap(cmo_mathcap* m); static int dump_cmo_null(cmo_null* m); static int dump_cmo_string(cmo_string* m); static int dump_cmo_monomial32(cmo_monomial32* c); static int dump_cmo_zz(cmo_zz* c); static int dump_string(char *s, int len); static int dump_integer(int x); static int dump_mpz(mpz_ptr mpz); static int login_with_otp(int fd, char* passwd); static char *create_otp(); /* CMO_xxx の値の順にならべること(デバッグのため) */ static cmo_null* receive_cmo_null(int fd); static cmo_int32* receive_cmo_int32(int fd); static cmo_string* receive_cmo_string(int fd); static cmo_mathcap* receive_cmo_mathcap(int fd); static cmo_list* receive_cmo_list(int fd); static cmo_monomial32* receive_cmo_monomial32(int fd); static cmo_zz* receive_cmo_zz(int fd); static cmo_zero* receive_cmo_zero(int fd); static cmo_dms_generic* receive_cmo_dms_generic(int fd); static cmo_ring_by_name* receive_cmo_ring_by_name(int fd); static cmo_distributed_polynomial* receive_cmo_distributed_polynomial(int fd); static cmo_error2* receive_cmo_error2(int fd); static void receive_mpz(int fd, mpz_ptr mpz); static int send_cmo_null(int fd, cmo_null* c); static int send_cmo_int32(int fd, cmo_int32* m); static int send_cmo_string(int fd, cmo_string* m); static int send_cmo_mathcap(int fd, cmo_mathcap* c); static int send_cmo_list(int fd, cmo_list* c); static int send_cmo_monomial32(int fd, cmo_monomial32* c); static int send_cmo_zz(int fd, cmo_zz* c); static int send_cmo_error2(int fd, cmo_error2* c); static int send_mpz(int fd, mpz_ptr mpz); static int send_cmo_distributed_polynomial(int fd, cmo_distributed_polynomial* c); static void resize_mpz(mpz_ptr mpz, int size); static int print_cmo_int32(cmo_int32* c); static int print_cmo_list(cmo_list* li); static int print_cmo_mathcap(cmo_mathcap* c); static int print_cmo_string(cmo_string* c); static char* new_string_set_cmo_null(); static char* new_string_set_cmo_int32(int integer); static char* new_string_set_cmo_list(cmo_list *c); static char* new_string_set_cmo_zz(cmo_zz *c); int current_fd = 0; int set_current_fd(int fd) { current_fd = fd; } /* hook 関数 */ static hook_t hook_before_send_cmo = NULL; static hook_t hook_after_send_cmo = NULL; int add_hook_before_send_cmo(hook_t func) { hook_before_send_cmo = func; } int add_hook_after_send_cmo(hook_t func) { hook_after_send_cmo = func; } static cmo *call_hook_before_send_cmo(int fd, cmo *c) { if (hook_before_send_cmo != NULL) { return hook_before_send_cmo(fd, c); } return c; } static cmo *call_hook_after_send_cmo(int fd, cmo *c) { if (hook_after_send_cmo != NULL) { return hook_after_send_cmo(fd, c); } return c; } /* Handling an error. */ static int current_received_serial = 0; /* If an error object be needed, then a server call the following function. */ cmo_error2* make_error_object(int err_code, cmo *ob) { cmo_list* li = new_cmo_list(); append_cmo_list(li, (cmo *)new_cmo_int32(current_received_serial)); append_cmo_list(li, (cmo *)new_cmo_int32(err_code)); append_cmo_list(li, ob); /* 他の情報を加えるならココ */ return new_cmo_error2((cmo *)li); } /* add at Mon Sep 7 15:51:28 JST 1998 */ #define DEFAULT_SERIAL_NUMBER 0x0000ffff #define receive_serial_number(x) (receive_int32(x)) /* getting a next serial number. */ int next_serial() { static int serial_number = DEFAULT_SERIAL_NUMBER; return serial_number++; } /* sending an object of int32 type. (not equal to cmo_int32 type) */ int send_int32(int fd, int int32) { int32 = htonl(int32); return write(fd, &int32, sizeof(int)); } /* receiving an object of int32 type. (not equal to cmo_int32 type) */ int receive_int32(int fd) { int tag; read(fd, &tag, sizeof(int)); return ntohl(tag); } /* receiving an (OX_tag, serial number) */ int receive_ox_tag(int fd) { int serial; int tag = receive_int32(fd); current_received_serial = receive_serial_number(fd); return tag; } /* sending an (OX_tag, serial number) */ int send_ox_tag(int fd, int tag) { send_int32(fd, tag); return send_int32(fd, next_serial()); } /* functions for a cmo_list */ cell* new_cell() { cell* h = malloc(sizeof(cell)); h->next = NULL; h->cmo = NULL; return h; } cell* next_cell(cell* this) { return this->next; } static cell *tail(cmo_list* this) { cell *cp = this->head; while (cp->next != NULL) { cp = cp->next; } return cp; } int append_cmo_list(cmo_list* this, cmo* newcmo) { cell *cp = tail(this); cp->cmo = newcmo; cp->next = new_cell(); this->length++; return 0; } cmo *nth_cmo_list(cmo_list* this, int n) { cell *cp = this->head; if(this->length <= n) { return NULL; } while(n-- > 0) { cp = cp->next; } return cp->cmo; } int length_cmo_list(cmo_list* this) { return this->length; } /* functions named receive_cmo_*. */ static cmo_null* receive_cmo_null(int fd) { return new_cmo_null(); } static cmo_int32* receive_cmo_int32(int fd) { int i = receive_int32(fd); return new_cmo_int32(i); } static cmo_string* receive_cmo_string(int fd) { int len = receive_int32(fd); char* s = malloc(len+1); memset(s, '\0', len+1); if (len > 0) { read(fd, s, len); } return new_cmo_string(s); } static cmo_mathcap* receive_cmo_mathcap(int fd) { cmo* ob = receive_cmo(fd); return new_cmo_mathcap(ob); } static cmo_list* receive_cmo_list(int fd) { cmo* ob; cmo_list* c = new_cmo_list(); int len = receive_int32(fd); while (len>0) { ob = receive_cmo(fd); append_cmo_list(c, ob); len--; } return c; } static cmo_monomial32* receive_cmo_monomial32(int fd) { int i; int len = receive_int32(fd); cmo_monomial32* c = new_cmo_monomial32(len); for(i=0; iexps[i] = receive_int32(fd); } c->coef = receive_cmo(fd); return c; } static cmo_zz* receive_cmo_zz(int fd) { cmo_zz* c = new_cmo_zz(); receive_mpz(fd, c->mpz); return c; } static cmo_zero* receive_cmo_zero(int fd) { return new_cmo_zero(); } static cmo_dms_generic* receive_cmo_dms_generic(int fd) { return new_cmo_dms_generic(); } static cmo_ring_by_name* receive_cmo_ring_by_name(int fd) { cmo* ob = receive_cmo(fd); /* We need to check semantics but yet ... */ return new_cmo_ring_by_name(ob); } static cmo_distributed_polynomial* receive_cmo_distributed_polynomial(int fd) { cmo* ob; cmo_distributed_polynomial* c = new_cmo_distributed_polynomial(); int len = receive_int32(fd); c->ringdef = receive_cmo(fd); while (len>0) { ob = receive_cmo(fd); append_cmo_list((cmo_list *)c, ob); len--; } return c; } static cmo_error2* receive_cmo_error2(int fd) { cmo* ob = receive_cmo(fd); return new_cmo_error2(ob); } /* receive_ox_tag() == OX_DATA の後に呼び出される */ /* 関数ポインタを使った方がきれいに書けるような気がする. */ /* if (foo[tag] != NULL) foo[tag](fd); とか */ cmo* receive_cmo(int fd) { cmo* m; int tag; tag = receive_int32(fd); switch(tag) { case CMO_NULL: m = receive_cmo_null(fd); break; case CMO_INT32: m = (cmo *)receive_cmo_int32(fd); break; case CMO_STRING: m = (cmo *)receive_cmo_string(fd); break; case CMO_MATHCAP: m = (cmo *)receive_cmo_mathcap(fd); break; case CMO_LIST: m = (cmo *)receive_cmo_list(fd); break; case CMO_MONOMIAL32: m = (cmo *)receive_cmo_monomial32(fd); break; case CMO_ZZ: m = (cmo *)receive_cmo_zz(fd); break; case CMO_ZERO: m = (cmo *)receive_cmo_zero(fd); break; case CMO_DMS_GENERIC: m = (cmo *)receive_cmo_dms_generic(fd); break; case CMO_RING_BY_NAME: m = (cmo *)receive_cmo_ring_by_name(fd); break; case CMO_DISTRIBUTED_POLYNOMIAL: m = (cmo *)receive_cmo_distributed_polynomial(fd); break; case CMO_ERROR2: m = (cmo *)receive_cmo_error2(fd); break; case CMO_DATUM: case CMO_QQ: default: fprintf(stderr, "the CMO (%d) is not implemented.\n", m->tag); } return m; } static void receive_mpz(int fd, mpz_ptr mpz) { int i; int size = receive_int32(fd); int len = abs(size); resize_mpz(mpz, size); for(i=0; i_mp_d[i] = receive_int32(fd); } } static void resize_mpz(mpz_ptr mpz, int size) { _mpz_realloc(mpz, abs(size)); mpz->_mp_size = size; } /* functions named new_cmo_*. */ cmo_null* new_cmo_null() { cmo_null* m = malloc(sizeof(cmo_null)); m->tag = CMO_NULL; return m; } cmo_int32* new_cmo_int32(int i) { cmo_int32* c; c = malloc(sizeof(cmo_int32)); c->tag = CMO_INT32; c->i = i; return c; } cmo_string* new_cmo_string(char* s) { cmo_string* c = malloc(sizeof(cmo_string)); c->tag = CMO_STRING; if (s != NULL) { c->s = malloc(strlen(s)+1); strcpy(c->s, s); }else { c->s = NULL; } return c; } cmo_mathcap* new_cmo_mathcap(cmo* ob) { cmo_mathcap* c = malloc(sizeof(cmo_mathcap)); c->tag = CMO_MATHCAP; c->ob = ob; return c; } cmo_list* new_cmo_list() { cmo_list* c = malloc(sizeof(cmo_list)); c->tag = CMO_LIST; c->length = 0; c->head->next = NULL; return c; } cmo_monomial32* new_cmo_monomial32() { cmo_monomial32* c = malloc(sizeof(cmo_monomial32)); c->tag = CMO_MONOMIAL32; return c; } cmo_monomial32* new_cmo_monomial32_size(int size) { cmo_monomial32* c = new_cmo_monomial32(); if (size>0) { c->length = size; c->exps = malloc(sizeof(int)*size); } return c; } cmo_zz* new_cmo_zz() { cmo_zz* c = malloc(sizeof(cmo_zz)); c->tag = CMO_ZZ; mpz_init(c->mpz); return c; } cmo_zz* new_cmo_zz_noinit() { cmo_zz* c = malloc(sizeof(cmo_zz)); c->tag = CMO_ZZ; return c; } cmo_zz* new_cmo_zz_set_si(int i) { cmo_zz* c = new_cmo_zz(); mpz_set_si(c->mpz, i); return c; } cmo_zz* new_cmo_zz_set_mpz(mpz_ptr z) { cmo_zz* c = new_cmo_zz(); mpz_set(c->mpz, z); return c; } cmo_zz *new_cmo_zz_set_string(char *s) { cmo_zz* c = new_cmo_zz_noinit(); mpz_init_set_str(c->mpz, s, 10); return c; } cmo_zz* new_cmo_zz_size(int size) { cmo_zz* c = new_cmo_zz(); resize_mpz(c->mpz, size); return c; } cmo_zero* new_cmo_zero() { cmo_zero* m = malloc(sizeof(cmo_zero)); m->tag = CMO_ZERO; return m; } cmo_dms_generic* new_cmo_dms_generic() { cmo_dms_generic* m = malloc(sizeof(cmo_dms_generic)); m->tag = CMO_DMS_GENERIC; return m; } cmo_ring_by_name* new_cmo_ring_by_name(cmo* ob) { cmo_ring_by_name* c = malloc(sizeof(cmo_ring_by_name)); c->tag = CMO_RING_BY_NAME; c->ob = ob; return c; } cmo_indeterminate* new_cmo_indeterminate(cmo* ob) { cmo_indeterminate* c = malloc(sizeof(cmo_indeterminate)); c->tag = CMO_INDETERMINATE; c->ob = ob; return c; } cmo_distributed_polynomial* new_cmo_distributed_polynomial() { cmo_distributed_polynomial* c = malloc(sizeof(cmo_distributed_polynomial)); c->tag = CMO_DISTRIBUTED_POLYNOMIAL; c->length = 0; c->head->next = NULL; c->ringdef = NULL; return c; } cmo_error2* new_cmo_error2(cmo* ob) { cmo_error2* c = malloc(sizeof(cmo_error2)); c->tag = CMO_ERROR2; c->ob = ob; return c; } void send_ox_command(int fd, int sm_command) { send_ox_tag(fd, OX_COMMAND); send_int32(fd, sm_command); } int print_cmo(cmo* c) { int tag = c->tag; symbol* symp = lookup_by_tag(tag); if (symp != NULL) { fprintf(stderr, "(%s", symp->key); }else { fprintf(stderr, "(%d", tag); } switch(tag) { case CMO_LIST: print_cmo_list((cmo_list *)c); break; case CMO_INT32: print_cmo_int32((cmo_int32 *)c); break; case CMO_MATHCAP: case CMO_INDETERMINATE: case CMO_RING_BY_NAME: case CMO_ERROR2: print_cmo_mathcap((cmo_mathcap *)c); break; case CMO_STRING: print_cmo_string((cmo_string *)c); break; case CMO_NULL: case CMO_ZERO: case CMO_DMS_GENERIC: fprintf(stderr, ")"); break; default: fprintf(stderr, "print_cmo() does not know how to print.\n"); } } static int print_cmo_int32(cmo_int32* c) { fprintf(stderr, ", %d)", c->i); } static int print_cmo_list(cmo_list* li) { cell* cp = li->head; while(cp->next != NULL) { fprintf(stderr, ", "); print_cmo(cp->cmo); cp=cp->next; } fprintf(stderr, ")"); } static int print_cmo_mathcap(cmo_mathcap* c) { fprintf(stderr, ", "); print_cmo(c->ob); fprintf(stderr, ")"); } static int print_cmo_string(cmo_string* c) { fprintf(stderr, ", \"%s\")", c->s); } void ox_close(ox_file_t sv) { send_ox_command(sv->control, SM_control_kill); #ifdef DEBUG sleep(2); /* We wait thar an OpenXM server terminates. */ fprintf(stderr, "I have closed the connection to an Open XM server.\n"); #endif } void ox_shutdown(ox_file_t sv) { /* We need to use SM_shutdown but yet ... */ ox_close(sv); } int ox_cmo_rpc(ox_file_t sv, char *function, int argc, cmo *argv[]) { int i = argc; while(i-- > 0) { send_ox_cmo(sv->stream, argv[i]); } send_ox_cmo(sv->stream, (cmo *)new_cmo_int32(argc)); send_ox_cmo(sv->stream, (cmo *)new_cmo_string(function)); send_ox_command(sv->stream, SM_executeFunction); } void ox_execute_string(ox_file_t sv, char* s) { send_ox_cmo(sv->stream, (cmo *)new_cmo_string(s)); send_ox_command(sv->stream, SM_executeStringByLocalParser); } void ox_push_cmd(ox_file_t sv, int sm_code) { send_ox_command(sv->stream, sm_code); } cmo_mathcap* ox_mathcap(ox_file_t sv) { send_ox_command(sv->stream, SM_mathcap); send_ox_command(sv->stream, SM_popCMO); receive_ox_tag(sv->stream); /* OX_DATA */ return (cmo_mathcap *)receive_cmo(sv->stream); } char* ox_popString(ox_file_t sv) { cmo_string* m = NULL; send_ox_command(sv->stream, SM_popString); receive_ox_tag(sv->stream); /* OX_DATA */ m = (cmo_string *)receive_cmo(sv->stream); return m->s; } int ox_pops(ox_file_t sv, int num) { send_ox_cmo(sv->stream, (cmo *)new_cmo_int32(num)); send_ox_command(sv->stream, SM_pops); } cmo* ox_pop_cmo(ox_file_t sv) { send_ox_command(sv->stream, SM_popCMO); receive_ox_tag(sv->stream); /* OX_DATA */ return receive_cmo(sv->stream); } void ox_push_cmo(ox_file_t sv, cmo *c) { send_ox_cmo(sv->stream, c); } /* a dummy function for flushing a connection. */ int ox_flush(ox_file_t sv) { return 1; } /* a dummy password function. */ static char *create_otp() { static char otp[] = "otpasswd"; return otp; } /* proceeding an one time password. */ static int login_with_otp(int fd, char* passwd) { int len = strlen(passwd)+1; char *buf = alloca(len); int n = read(fd, buf, len); int ret = strcmp(passwd, buf); #ifdef DEBUG if (ret != 0) { fprintf(stderr, "Socket#%d: Login incorrect.\n", fd); }else { fprintf(stderr, "Socket#%d: login!.\n", fd); } fprintf(stderr, "password = (%s), %d bytes.\n", passwd, len); fprintf(stderr, "received = (%s), %d bytes.\n", buf, n); fflush(stderr); #endif return ret; } static int chdir_openxm_home_bin() { char *dir; char *base = getenv("OpenXM_HOME"); if (base != NULL) { dir = alloca(strlen(base)+5); sprintf(dir, "%s/bin", base); }else { dir = "/usr/local/OpenXM/bin"; } return chdir(dir); } /* example: which("xterm", getenv("PATH")); */ static char *which(char *prog, char *path_env) { char *tok; char *path; char delim[] = ":"; char *e = alloca(strlen(path_env)+1); strcpy(e, path_env); tok = strtok(e, delim); while (tok != NULL) { char *path = malloc(strlen(tok)+strlen(prog)+2); sprintf(path, "%s/%s", tok, prog); if (access(path, X_OK&R_OK) == 0) { return path; } free(path); tok = strtok(NULL, delim); } return NULL; } static int mysocketAccept2(int fd, char *pass) { fd = mysocketAccept(fd); if(login_with_otp(fd, pass)==0) { decideByteOrderClient(fd, 0); return fd; } close(fd); return -1; } /* 0 でなければ、oxlog を介して ox を起動する。*/ static int flag_ox_start_with_oxlog = 1; /* (-reverse 版の ox_start) ox_start は クライアントが呼び出すための関数である. サーバでは使われない. ctl_prog はコントロールサーバであり, -ox, -reverse, -data, -control, -pass, -host というオプションを理解することを仮定する. dat_prog は計算サーバである. 接続時には, sv->control を先にオープンする. */ ox_file_t ox_start(char* host, char* ctl_prog, char* dat_prog) { ox_file_t sv = NULL; char *pass; char ctl[128], dat[128]; short portControl = 0; /* short であることに注意 */ short portStream = 0; char *dir; char *oxlog = "oxlog"; sv = malloc(sizeof(__ox_file_struct)); sv->control = mysocketListen(host, &portControl); sv->stream = mysocketListen(host, &portStream); sprintf(ctl, "%d", portControl); sprintf(dat, "%d", portStream); pass = create_otp(); if (fork() == 0) { chdir_openxm_home_bin(); if (flag_ox_start_with_oxlog) { execl(oxlog, oxlog, "xterm", "-icon", "-e", ctl_prog, "-reverse", "-ox", dat_prog, "-data", dat, "-control", ctl, "-pass", pass, "-host", host, NULL); }else { dup2(2, 1); dup2(open(tempnam("/tmp", "ox."), O_RDWR|O_CREAT|O_TRUNC, 0644), 2); execl(ctl_prog, ctl_prog, "-reverse", "-ox", dat_prog, "-data", dat, "-control", ctl, "-pass", pass, "-host", host, NULL); } exit(1); } if ((sv->control = mysocketAccept2(sv->control, pass)) == -1) { close(sv->stream); return NULL; } /* 10マイクロ秒, 時間稼ぎする. */ usleep(10); if((sv->stream = mysocketAccept2(sv->stream, pass)) == -1) { return NULL; } return sv; } /* ssh -f host oxlog xterm -e ox -ox ox_asir ... */ int ssh_ox_server(char *host, char *ctl_prog, char *dat_prog, short portControl, short portStream) { if (fork() == 0) { execl("ssh", "ssh", "-f", host, "oxlog", "xterm", "-icon", "-e", ctl_prog, "-insecure", "-ox", dat_prog, "-data", portStream, "-control", portControl, "-host", host, NULL); exit(1); } } /* (-insecure 版の ox_start) まだ、中身はありません。 ox_start_insecure_nonreverse は クライアントが呼び出すための関数である. 接続時には, sv->control を先にオープンする. 既定値: portControl = 1200 portStream = 1300 */ ox_file_t ox_start_insecure_nonreverse(char* host, short portControl, short portStream) { ox_file_t sv = malloc(sizeof(__ox_file_struct)); sv->control = mysocketOpen(host, portControl); #if 0 /* ox は insecure のとき byte order の決定が正しくできないようだ... */ decideByteOrderClient(sv->control, 0); #endif /* 10マイクロ秒, 時間稼ぎする. */ usleep(10); sv->stream = mysocketOpen(host, portStream); decideByteOrderClient(sv->stream, 0); return sv; } ox_file_t ox_start_insecure_nonreverse2(char* host, char *ctl_prog, char *dat_prog) { short portControl= 1200; /* 自動生成させよう... */ short portStream = 1300; ssh_ox_server(host, ctl_prog, dat_prog, portControl, portStream); return ox_start_insecure_nonreverse(host, portControl, portStream); } void ox_reset(ox_file_t sv) { send_ox_command(sv->control, SM_control_reset_connection); receive_ox_tag(sv->control); /* OX_DATA */ receive_cmo(sv->control); /* (CMO_INT32, 0) */ while(receive_ox_tag(sv->stream) != OX_SYNC_BALL) { receive_cmo(sv->stream); /* skipping a message. */ } send_ox_tag(sv->stream, OX_SYNC_BALL); #ifdef DEBUG fprintf(stderr, "I have reset an Open XM server.\n"); #endif } /* 以下は bconv.c で必要とする関数群である. */ /* cmolen 関数は cmo の(送信時の)バイト長を返す. */ /* cmolen_XXX 関数は cmo_XXX の tag を除いたバイト長を返す. */ static int cmolen_cmo_null(cmo_null* c) { return 0; } static int cmolen_cmo_int32(cmo_int32* c) { return sizeof(int); } static int cmolen_cmo_string(cmo_string* c) { return sizeof(int)+strlen(c->s); } static int cmolen_cmo_mathcap(cmo_mathcap* c) { return cmolen_cmo(c->ob); } static int cmolen_cmo_list(cmo_list* c) { int size = sizeof(int); cell* cp = c->head; while(cp->next != NULL) { size += cmolen_cmo(cp->cmo); cp = cp->next; } return size; } static int cmolen_cmo_monomial32(cmo_monomial32* c) { int len = (c->length + 1)*sizeof(int); return len + cmolen_cmo(c->coef); } static int cmolen_cmo_zz(cmo_zz* c) { int len = abs(c->mpz->_mp_size); return sizeof(len) + len*sizeof(int); } static int cmolen_cmo_distributed_polynomial(cmo_distributed_polynomial* c) { return cmolen_cmo_list((cmo_list *)c) + cmolen_cmo(c->ringdef); } /* CMO がバイトエンコードされた場合のバイト列の長さを求める */ int cmolen_cmo(cmo* c) { int size = sizeof(int); switch(c->tag) { case CMO_NULL: case CMO_ZERO: case CMO_DMS_GENERIC: size += cmolen_cmo_null(c); break; case CMO_INT32: size += cmolen_cmo_int32((cmo_int32 *)c); break; case CMO_STRING: size += cmolen_cmo_string((cmo_string *)c); break; case CMO_MATHCAP: case CMO_RING_BY_NAME: case CMO_INDETERMINATE: case CMO_ERROR2: size += cmolen_cmo_mathcap((cmo_mathcap *)c); break; case CMO_LIST: size += cmolen_cmo_list((cmo_list *)c); break; case CMO_MONOMIAL32: size += cmolen_cmo_monomial32((cmo_monomial32 *)c); break; case CMO_ZZ: size += cmolen_cmo_zz((cmo_zz *)c); break; case CMO_DISTRIBUTED_POLYNOMIAL: size += cmolen_cmo_distributed_polynomial((cmo_distributed_polynomial *)c); break; default: } return size; } static int d_ptr; static char *d_buf; int init_dump_buffer(char *s) { d_buf = s; d_ptr = 0; } static int dump_cmo_null(cmo_null* m) { return 0; } static int dump_cmo_int32(cmo_int32* m) { dump_integer(m->i); } static int dump_cmo_string(cmo_string* m) { int len = strlen(m->s); dump_integer(len); dump_string(m->s, len); } static int dump_cmo_mathcap(cmo_mathcap* c) { dump_cmo(c->ob); } static int dump_cmo_list(cmo_list* m) { cell* cp = m->head; int len = length_cmo_list(m); dump_integer(len); while(cp->next != NULL) { dump_cmo(cp->cmo); cp = cp->next; } } static int dump_cmo_monomial32(cmo_monomial32* c) { int i; int length = c->length; dump_integer(c->length); for(i=0; iexps[i]); } dump_cmo(c->coef); } static int dump_cmo_zz(cmo_zz* c) { dump_mpz(c->mpz); } static int dump_cmo_distributed_polynomial(cmo_distributed_polynomial* m) { cell* cp = m->head; int len = length_cmo_list((cmo_list *)m); dump_integer(len); dump_cmo(m->ringdef); while(cp != NULL) { dump_cmo(cp->cmo); cp = cp->next; } } /* タグを書き出してから、各関数を呼び出す */ int dump_cmo(cmo* m) { dump_integer(m->tag); switch(m->tag) { case CMO_NULL: case CMO_ZERO: case CMO_DMS_GENERIC: dump_cmo_null(m); break; case CMO_INT32: dump_cmo_int32((cmo_int32 *)m); break; case CMO_STRING: dump_cmo_string((cmo_string *)m); break; case CMO_MATHCAP: case CMO_RING_BY_NAME: case CMO_INDETERMINATE: case CMO_ERROR2: dump_cmo_mathcap((cmo_mathcap *)m); break; case CMO_LIST: dump_cmo_list((cmo_list *)m); break; case CMO_MONOMIAL32: dump_cmo_monomial32((cmo_monomial32 *)m); break; case CMO_ZZ: dump_cmo_zz((cmo_zz *)m); break; case CMO_DISTRIBUTED_POLYNOMIAL: dump_cmo_distributed_polynomial((cmo_distributed_polynomial *)m); break; default: } } static int dump_mpz(mpz_ptr mpz) { int i; int len = abs(mpz->_mp_size); dump_integer(mpz->_mp_size); for(i=0; i_mp_d[i]); } return; } static int dump_string(char *s, int len) { memcpy(&d_buf[d_ptr], s, len); d_ptr += len; } static int dump_integer(int x) { int nx = htonl(x); dump_string((char *)&nx, sizeof(int)); } int dump_ox_data(ox_data* m) { dump_integer(OX_DATA); dump_integer(-1); dump_cmo(m->cmo); } int dump_ox_command(ox_command* m) { dump_integer(OX_COMMAND); dump_integer(-1); dump_integer(m->command); } int send_ox(int fd, ox *m) { int code; switch(m->tag) { case OX_DATA: send_ox_cmo(fd, ((ox_data *)m)->cmo); break; case OX_COMMAND: send_ox_command(fd, ((ox_command *)m)->command); break; default: #if 0 /* CMO?? */ send_ox_cmo(s->stream, (cmo *)m); #endif } } int send_ox_cmo(int fd, cmo* m) { send_ox_tag(fd, OX_DATA); send_cmo(fd, m); } /* send_cmo_xxx 関数群 */ static int send_cmo_null(int fd, cmo_null* c) { return 0; } static int send_cmo_int32(int fd, cmo_int32* m) { send_int32(fd, m->i); } static int send_cmo_string(int fd, cmo_string* m) { int len = (m->s != NULL)? strlen(m->s): 0; send_int32(fd, len); if (len > 0) { write(fd, m->s, len); } return 0; } static int send_cmo_mathcap(int fd, cmo_mathcap* c) { send_cmo(fd, c->ob); return 0; } static int send_cmo_list(int fd, cmo_list* c) { cell* cp = c->head; int len = length_cmo_list(c); send_int32(fd, len); while(cp->next != NULL) { send_cmo(fd, cp->cmo); cp = cp->next; } return 0; } static int send_cmo_distributed_polynomial(int fd, cmo_distributed_polynomial* c) { cell* cp = c->head; int len = length_cmo_list((cmo_list *)c); send_int32(fd, len); send_cmo(fd, c->ringdef); while(cp->next != NULL) { send_cmo(fd, cp->cmo); cp = cp->next; } return 0; } static int send_cmo_monomial32(int fd, cmo_monomial32* c) { int i; int len = c->length; send_int32(fd, len); for(i=0; iexps[i]); } send_cmo(fd, c->coef); return 0; } static int send_cmo_zz(int fd, cmo_zz* c) { send_mpz(fd, c->mpz); return 0; } static int send_cmo_error2(int fd, cmo_error2* c) { send_cmo(fd, c->ob); return 0; } /* CMOを送る. OX_tag は送信済*/ int send_cmo(int fd, cmo* c) { int tag = c->tag; c = call_hook_before_send_cmo(fd, c); send_int32(fd, tag); switch(tag) { case CMO_NULL: case CMO_ZERO: case CMO_DMS_GENERIC: send_cmo_null(fd, c); /* 空の関数 */ break; case CMO_INT32: send_cmo_int32(fd, (cmo_int32 *)c); break; case CMO_STRING: send_cmo_string(fd, (cmo_string *)c); break; case CMO_MATHCAP: case CMO_ERROR2: case CMO_RING_BY_NAME: case CMO_INDETERMINATE: send_cmo_mathcap(fd, (cmo_mathcap *)c); break; case CMO_LIST: send_cmo_list(fd, (cmo_list *)c); break; case CMO_MONOMIAL32: send_cmo_monomial32(fd, (cmo_monomial32 *)c); break; case CMO_ZZ: send_cmo_zz(fd, (cmo_zz *)c); break; case CMO_DISTRIBUTED_POLYNOMIAL: send_cmo_distributed_polynomial(fd, (cmo_distributed_polynomial *)c); break; default: call_hook_after_send_cmo(fd, c); } } static int send_mpz(int fd, mpz_ptr mpz) { int i; int len = abs(mpz->_mp_size); send_int32(fd, mpz->_mp_size); for(i=0; i_mp_d[i]); } return 0; } ox_data* new_ox_data(cmo* c) { ox_data* m = malloc(sizeof(ox_data)); m->tag = OX_DATA; m->cmo = c; return m; } ox_command* new_ox_command(int sm_code) { ox_command* m = malloc(sizeof(ox_command)); m->tag = OX_COMMAND; m->command = sm_code; return m; } ox_sync_ball* new_ox_sync_ball() { ox_sync_ball *m = malloc(sizeof(ox_sync_ball)); m->tag = OX_SYNC_BALL; return m; } #define ID_TEMP "(CMO_LIST, (CMO_INT32, %d), (CMO_STRING, \"%s\"), (CMO_STRING, \"%s\"), (CMO_STRING, \"%s\"))" static cmo_list* make_list_of_id(int ver, char* ver_s, char* sysname) { cmo_list *cap; char buff[512]; sprintf(buff, ID_TEMP, ver, sysname, ver_s, getenv("HOSTTYPE")); init_parser(buff); cap = (cmo_list *)parse(); return cap; } static cmo_list *make_list_of_tag(int type) { cmo_list *li = new_cmo_list(); symbol *symp; int i = 0; while((symp = lookup(i++))->key != NULL) { if (symp->type == type) { append_cmo_list(li, (cmo *)new_cmo_int32(symp->tag)); } } return li; } cmo* make_mathcap_object(int version, char *id_string) { char *sysname = "ox_math"; cmo_list *li = new_cmo_list(); cmo_list *li_1st = make_list_of_id(version, id_string, sysname); cmo_list *li_2nd = make_list_of_tag(IS_SM); cmo_list *li_3rd = new_cmo_list(); cmo_list *li_cmo = make_list_of_tag(IS_CMO); cmo_list *li_ox_data = new_cmo_list(); append_cmo_list(li_ox_data, (cmo *)new_cmo_int32(OX_DATA)); append_cmo_list(li_ox_data, (cmo *)li_cmo); append_cmo_list(li_3rd, (cmo *)li_ox_data); append_cmo_list(li, (cmo *)li_1st); append_cmo_list(li, (cmo *)li_2nd); append_cmo_list(li, (cmo *)li_3rd); return (cmo *)new_cmo_mathcap((cmo *)li); } /* ファイルディスクリプタ fd の通信路での integer の byte order を決定する */ /* 実際には order (0,1,or 0xFF)をみてはいない */ int decideByteOrderClient(oxfd fd, int order) { char zero = OX_BYTE_NETWORK_BYTE_ORDER; char dest; read(fd, &dest, sizeof(char)); write(fd, &zero, sizeof(char)); return 0; } /* Server 側ではこちらを用いる */ /* いまの実装は dup されていることが前提になっている */ int decideByteOrderServer(oxfd fd, int order) { char zero = OX_BYTE_NETWORK_BYTE_ORDER; char dest; write(fd, &zero, sizeof(char)); read(fd, &dest, sizeof(char)); return 0; } /* cmo と string (ここではC言語のstring) の変換関数群 */ static char *new_string_set_cmo_zz(cmo_zz *c) { return mpz_get_str(NULL, 10, c->mpz); } static char *new_string_set_cmo_null() { static char* null_string = ""; return null_string; } static char *new_string_set_cmo_int32(int integer) { char buff[1024]; char *s; sprintf(buff, "%d", integer); s = malloc(strlen(buff)+1); strcpy(s, buff); return s; } static char *new_string_set_cmo_list(cmo_list *m) { char *s; int i; int size = 0; int len = length_cmo_list(m); char **sp = malloc(len*sizeof(cmo *)); cell *cp = m->head; for(i = 0; i < len; i++) { sp[i] = new_string_set_cmo(cp->cmo); size += strlen(sp[i]) + 3; cp = cp->next; } s = malloc(size+2); strcpy(s, "[ "); for(i = 0; i < len - 1; i++) { strcat(s, sp[i]); strcat(s, " , "); } strcat(s, sp[len-1]); strcat(s, " ]"); free(sp); return s; } char *new_string_set_cmo(cmo *m) { symbol *symp; switch(m->tag) { case CMO_ZZ: return new_string_set_cmo_zz((cmo_zz *)m); case CMO_INT32: return new_string_set_cmo_int32(((cmo_int32 *)m)->i); case CMO_STRING: return ((cmo_string *)m)->s; case CMO_NULL: return new_string_set_cmo_null(); case CMO_LIST: return new_string_set_cmo_list((cmo_list *)m); default: #ifdef DEBUG symp = lookup_by_tag(m->tag); fprintf(stderr, "I do not know how to convert %s to a string.\n", symp->key); #endif /* まだ実装していません. */ return NULL; } }