ID
uint32_t ID;
AUDIO_AIFF_FILE2HOST_INT(&tmp, &ID);
switch (ID) {
uint32_t ID;
AUDIO_WAV_FILE2HOST_INT(&fhdr.wav_type_ID, &ID);
if (ID != AUDIO_WAV_TYPE_ID) {
AUDIO_WAV_FILE2HOST_INT(&fhdr.wav_fmt_ID, &ID);
if (ID != AUDIO_WAV_FORMAT_ID) {
if (token() != ID || strcmp(host, tokval))
return (ID);
return (record(ID, cptr));
| ID
nvname : ID
| nvname '-' ID
| NUMBER ID
| NUMBER ID
| ID
func : ID '(' ')'
| ID '(' exprlist ')'
| ID '(' exprlist ')'
globid : '$' ID
iterid : ID
| ID '[' ']'
| ID '[' cexpr ']'
| ID '<' '>'
| ID '<' ID '>'
| ID '-' iterid
iname : ID
ename : ID '.' enameid
enameid : ID
%token <tok> ID QUOTE NUMBER IF PATHFUNC
for (proceed = TRUE, ptr = shcmd, state = ID, lastc = '\0';
if (state == ID && c == '#' && ptr == shcmd) {
case ID :
#define IS_ENTITY_KEY(ID) ((ID) == ENTITY_KEY)
#define IS_ISCSI_KEY(ID) ((ID) == ISCSI_KEY)
#define IS_PORTAL_KEY1(ID) ((ID) == PORTAL_KEY1)
#define IS_PORTAL_KEY2(ID) ((ID) == PORTAL_KEY2)
#define IS_PG_KEY1(ID) ((ID) == PG_KEY1)
#define IS_PG_KEY2(ID) ((ID) == PG_KEY2)
#define IS_PG_KEY3(ID) ((ID) == PG_KEY3)
#define IS_PG_PGT(ID) ((ID) == PG_PGT)
#define IS_ENTITY_ATTR(ID) \
((ID) > ENTITY_KEY && (ID) <= ENTITY_END)
#define IS_ISCSI_ATTR(ID) \
((ID) > ISCSI_KEY && (ID) <= ISCSI_END)
#define IS_PORTAL_ATTR(ID) \
((ID) > PORTAL_KEY2 && (ID) <= PORTAL_END)
#define IS_PG_ATTR(ID) \
((ID) > PG_KEY1 && (ID) <= PG_END)
#define DEF_XML_PROP(INDEX, TYPE, NAME, TAG, ID) TYPE,
#define DEF_XML_PROP(INDEX, TYPE, NAME, TAG, ID) (xmlChar *)NAME,
#define DEF_XML_PROP(INDEX, TYPE, NAME, TAG, ID) TAG,
#define DEF_XML_PROP(INDEX, TYPE, NAME, TAG, ID) ID,
#define isadmin(ID) (!(ID) || (ID) == Lp_Uid)
#define MAYBE_OPEN(CONTEXT, ID, MODE) \
k5_assert_locked(&((krb5_fcc_data *)(ID)->data)->lock); \
if (OPENCLOSE (ID)) { \
maybe_open_ret = krb5_fcc_open_file (CONTEXT,ID,MODE); \
k5_mutex_unlock(&((krb5_fcc_data *)(ID)->data)->lock); \
#define MAYBE_CLOSE(CONTEXT, ID, RET) \
if (OPENCLOSE (ID)) { \
(krb5_fcc_data *)(ID)->data); \
#define MAYBE_CLOSE_IGNORE(CONTEXT, ID) \
if (OPENCLOSE (ID)) { \
(void) krb5_fcc_close_file (CONTEXT,(krb5_fcc_data *)(ID)->data); } }
#define MAYBE_OPEN(context, ID, MODE) \
if (OPENCLOSE (ID)) { \
krb5_error_code maybe_open_ret = krb5_scc_open_file (context, ID,MODE); \
#define MAYBE_CLOSE(context, ID, RET) \
if (OPENCLOSE (ID)) { \
krb5_error_code maybe_close_ret = krb5_scc_close_file (context, ID); \
kmf_get_cert_id_data(const KMF_DATA *SignedCert, KMF_DATA *ID)
if (SignedCert == NULL || ID == NULL)
ret = GetIDFromSPKI(&cert->certificate.subjectPublicKeyInfo, ID);
KMF_DATA ID = { 0, NULL };
ret = kmf_get_cert_id_data(SignedCert, &ID);
kmf_free_data(&ID);
for (i = 0; i < ID.Length; i++) {
"%02x", (uchar_t)ID.Data[i]);
if ((i+1) < ID.Length)
kmf_free_data(&ID);
GetIDFromSPKI(KMF_X509_SPKI *spki, KMF_DATA *ID)
if (ID == NULL || spki == NULL)
ID->Data = (uchar_t *)malloc(SHA1_HASH_LENGTH);
if (ID->Data == NULL)
ID->Length = SHA1_HASH_LENGTH;
create_id_hash(&KeyParts[KMF_RSA_MODULUS], ID);
create_id_hash(&KeyParts[KMF_DSA_PUBLIC_VALUE], ID);
create_id_hash(&KeyParts[KMF_ECDSA_POINT], ID);
if (rv != KMF_OK && ID->Data != NULL) {
free(ID->Data);
ID->Data = NULL;
ID->Length = 0;
id: ID {$$ = $1;}
%token <str> ID IDNAME PERM_TOK INHERIT_TOK SID
if (token() != ID || strcmp(host, d->tokval))
return (ID);
id(A) ::= ID(X). {A = X;}
%fallback ID
ids(A) ::= ID(X). {A = X;}
nm(A) ::= ID(X). {A = X;}
carg ::= DEFAULT ID(X). {sqliteAddDefaultValue(pParse,&X,0);}
expr(A) ::= ID(X). {A = sqliteExpr(TK_ID, 0, 0, &X);}
expr(A) ::= ID(X) LP exprlist(Y) RP(E). {
expr(A) ::= ID(X) LP STAR RP(E). {
ID *follow; /* Array of IDs of following lit expressions */
ID id; /* Lit Expression id */
ID last; /* ID of last lit exp in position set */
ID i, *p;
e->follow = (ID *)egmalloc(e->flen * sizeof (ID));
ID j;
ID *q, *eq;
ID n;
ID id; /* unique ID of lit expression */
char ID[64];
(void) sprintf(ID, "%s/%d %s",
dca_prov_info1.pi_provider_description = ID;
(void) sprintf(ID, "%s/%d %s",
dca_prov_info2.pi_provider_description = ID;
ID(ICPLUS, IP101, "IP101"),
ID(ICS, ICS1889, "ICS1889"),
ID(ICS, ICS1890, "ICS1890"),
ID(ICS, ICS1892, "ICS1892"),
ID(ICS, ICS1893, "ICS1893"),
ID(LUCENT, LU6612, "LU6612"),
ID(ALTIMA, AC101, "AC101/Am79C874"),
ID(ALTIMA, AC101L, "AC101L"),
ID(ALTIMA, AM79C875, "Am79C875"),
ID(AMD, AM79C901, "Am79C901"),
ID(AMD, AM79C972, "Am79C792"),
ID(AMD, AM79C973, "Am79C793"),
ID(DAVICOM, DM9101, "DM9101"),
ID(DAVICOM, DM9102, "DM9102"),
ID(DAVICOM, DM9161, "DM9161"),
#define RCV_DESC_TYPE(ID) \
((ID == RCV_DESC_JUMBO_CTXID) ? RCV_DESC_JUMBO : \
((ID == RCV_DESC_LRO_CTXID) ? RCV_DESC_LRO : (RCV_DESC_NORMAL)))
#define RCV_DESC_TYPE_NAME(ID) \
((ID == RCV_DESC_JUMBO_CTXID) ? "Jumbo" : \
(ID == RCV_DESC_LRO_CTXID) ? "LRO" : \
(ID == RCV_DESC_NORMAL_CTXID) ? "Normal" : "Unknown")
char ID[64];
(void) snprintf(ID, sizeof (ID), "tpmrng %s", IDENT_TPMRNG);
tpmrng_prov_info.pi_provider_description = ID;
#define ADD_CTRL(CTL, ID, VAL) \
state->cs_##CTL = audiocs_alloc_ctrl(state, ID, VAL); \
"unable to allocate %s control", #ID); \
bdf = (pcie_req_id_t)CSR_FR(csr_base, MMU_TRANSLATION_FAULT_STATUS, ID);
bdf = (pcie_req_id_t)CSR_FR(csr_base, MMU_TRANSLATION_FAULT_STATUS, ID);
bdf = (pcie_req_id_t)CSR_FR(csr_base, MMU_TRANSLATION_FAULT_STATUS, ID);
char ID[64];
(void) sprintf(ID, "%s/%d %s",
n2rng_prov_info.pi_provider_description = ID;