SP
return (SP);
return (SP);
return (SP);
return (SP);
return (SP);
return (SP);
return (SP);
return (SP);
: USER SP username CRLF check_secure
| PASS SP password CRLF check_secure
| PORT SP host_port CRLF check_secure
| EPRT SP STRING CRLF check_secure
| EPSV SP STRING CRLF check_login
| TYPE SP type_code CRLF check_secure
| STRU SP struct_code CRLF check_secure
| MODE SP mode_code CRLF check_secure
| ALLO SP NUMBER CRLF check_secure
| ALLO SP NUMBER SP R SP NUMBER CRLF check_secure
| RETR SP pathname CRLF check_login
| STOR SP pathname CRLF check_login
| APPE SP pathname CRLF check_login
| NLST SP STRING CRLF check_login
| LIST SP pathname CRLF check_login
| sTAT SP pathname CRLF check_login
| DELE SP pathname CRLF check_login_no_guest
| RNTO SP pathname CRLF check_login_no_guest
| CWD SP pathname CRLF check_login
| HELP SP STRING CRLF check_secure
| MKD SP pathname CRLF check_login
| RMD SP pathname CRLF check_login_no_guest
| OPTS SP STRING CRLF check_secure
| SITE SP HELP CRLF check_secure
| SITE SP HELP SP STRING CRLF check_secure
| SITE SP UMASK CRLF check_login
| SITE SP UMASK SP octal_number CRLF check_login_no_guest
| SITE SP CHMOD SP octal_number SP pathname CRLF check_login_no_guest
| SITE SP IDLE CRLF check_secure
| SITE SP IDLE SP NUMBER CRLF check_secure
| SITE SP KAUTH SP STRING CRLF check_login
| SITE SP KLIST CRLF check_login
| SITE SP KDESTROY CRLF check_login
| SITE SP KRBTKFILE SP STRING CRLF check_login
| SITE SP AFSLOG CRLF check_login
| SITE SP AFSLOG SP STRING CRLF check_login
| SITE SP LOCATE SP STRING CRLF check_login
| SITE SP URL CRLF check_secure
| STOU SP pathname CRLF check_login
| SIZE SP pathname CRLF check_login
| MDTM SP pathname CRLF check_login
: RNFR SP pathname CRLF check_login_no_guest
| REST SP byte_size CRLF check_secure
| AUTH SP STRING CRLF
| ADAT SP STRING CRLF
| PBSZ SP NUMBER CRLF check_secure
| PROT SP STRING CRLF check_secure
| MIC SP STRING CRLF
| CONF SP STRING CRLF
| ENC SP STRING CRLF
| A SP form_code
| E SP form_code
| L SP byte_size
SP CRLF COMMA
#define BYTEORDER_IS(SP, V) (((SP)->flags & KRB5_STORAGE_BYTEORDER_MASK) == (V))
#define BYTEORDER_IS_LE(SP) BYTEORDER_IS((SP), KRB5_STORAGE_BYTEORDER_LE)
#define BYTEORDER_IS_BE(SP) BYTEORDER_IS((SP), KRB5_STORAGE_BYTEORDER_BE)
#define BYTEORDER_IS_HOST(SP) (BYTEORDER_IS((SP), KRB5_STORAGE_BYTEORDER_HOST) || \
krb5_storage_is_flags((SP), KRB5_STORAGE_HOST_BYTEORDER))
(left) ^= SP[0][((temp) >> 24) & 0x3f] \
| SP[1][((temp) >> 16) & 0x3f] \
| SP[2][((temp) >> 8) & 0x3f] \
| SP[3][((temp) ) & 0x3f]; \
(left) ^= SP[4][((temp) >> 24) & 0x3f] \
| SP[5][((temp) >> 16) & 0x3f] \
| SP[6][((temp) >> 8) & 0x3f] \
| SP[7][((temp) ) & 0x3f]; \
(left) ^= SP[7][((temp) ) & 0x3f] \
| SP[6][((temp) >> 8) & 0x3f] \
| SP[5][((temp) >> 16) & 0x3f] \
| SP[4][((temp) >> 24) & 0x3f]; \
(left) ^= SP[3][((temp) ) & 0x3f] \
| SP[2][((temp) >> 8) & 0x3f] \
| SP[1][((temp) >> 16) & 0x3f] \
| SP[0][((temp) >> 24) & 0x3f]; \
#define GET_SERV_BY_NAME(NAME, PROTO, SP, ERR, TMP) \
(TMP = getservbyname (NAME, PROTO), (SP) = TMP, (ERR) = (SP) ? 0 : -1)
#define GET_SERV_BY_PORT(PORT, PROTO, SP, ERR, TMP) \
(TMP = getservbyport (PORT, PROTO), (SP) = TMP, (ERR) = (SP) ? 0 : -1)
#define GET_SERV_BY_NAME(NAME, PROTO, SP, ERR, TMP) \
(SP) = (getservbyname_r((NAME), (PROTO), &TMP.ent, \
#define GET_SERV_BY_PORT(PORT, PROTO, SP, ERR, TMP) \
(SP) = (getservbyport_r((PORT), (PROTO), &TMP.ent, \
#define GET_SERV_BY_NAME(NAME, PROTO, SP, ERR, TMP) \
(SP) = getservbyname_r((NAME), (PROTO), &TMP.ent, \
(ERR) = (SP) == NULL; \
#define GET_SERV_BY_PORT(PORT, PROTO, SP, ERR, TMP) \
(SP) = my_sp; \
SP("mloop", m->st, *start);
SP("sstart", st, *p);
SP("sboleol", st, c);
SP("sboweow", st, c);
SP("snwbnd", st, c);
SP("saft", st, c);
else if (SP)
cfsetispeed(&tmode, speed(SP));
else if (SP)
cfsetospeed(&tmode, speed(SP));
state.registers[SP] = ctx->pcb_regs.sf_sp;
state.registers[SP] = sp;
state->registers[SP], state->registers[FP]);
~((1 << SP) | (1 << FP) | (1 << LR) | (1 << PC));
state.registers[SP] = sp;
state.registers[SP] = td->td_pcb->pcb_regs.sf_sp;
uint32_t *vsp = (uint32_t *)state->registers[SP];
state->registers[SP] += ((insn & INSN_VSP_SIZE_MASK) << 2) + 4;
state->registers[SP] -= ((insn & INSN_VSP_SIZE_MASK) << 2) + 4;
if (reg == SP)
state->registers[SP] =
state->registers[SP] += 0x204 + (uleb128 << 2);
state->registers[SP] = (uint32_t)vsp;
state->registers[FP], state->registers[SP], state->registers[LR],
state.registers[SP] = sp;
state.registers[SP] = sp;
#define REG_SP SP
#define SP_INITREF(p) IPSEC_INITREF(SP, p)
#define SP_ADDREF(p) IPSEC_ADDREF(SP, p)
#define SP_DELREF(p) IPSEC_DELREF(SP, p)
printf("%c%c: L:%i",t->attr.su_entry.SP.h.type[0],
t->attr.su_entry.SP.h.type[1],
(int)t->attr.su_entry.SP.h.length[0]);
temp->attr.su_entry.SP.h.type[0] = type_id[0];
temp->attr.su_entry.SP.h.type[1] = type_id[1];
p->attr.su_entry.SP.h.length[0] = 7;
p->attr.su_entry.SP.h.version[0] = 1;
p->attr.su_entry.SP.check[0] = 0xBE;
p->attr.su_entry.SP.check[1] = 0xEF;
p->attr.su_entry.SP.len_skp[0] = 0;
ISO_SUSP_SP SP;
((int) ((entry)->attr.su_entry.SP.h.length[0]))