/*
* valid configuration values are:
*/
-#ifdef ISA
-const int opt_ints[] = {8, 3, 4, 5, 9, 10, 11, 12, 15} ;
-const int opt_iops[] = {8,
- 0x100, 0x120, 0x180, 0x1a0, 0x220, 0x240, 0x320, 0x340};
-const int opt_dmas[] = {4, 3, 5, 6, 7} ;
-const int opt_eproms[] = {15, 0xc0, 0xc2, 0xc4, 0xc6, 0xc8, 0xca, 0xcc, 0xce,
- 0xd0, 0xd2, 0xd4, 0xd6, 0xd8, 0xda, 0xdc} ;
-#endif
-#ifdef EISA
-const int opt_ints[] = {5, 9, 10, 11} ;
-const int opt_dmas[] = {0, 5, 6, 7} ;
-const int opt_eproms[] = {0xc0, 0xc2, 0xc4, 0xc6, 0xc8, 0xca, 0xcc, 0xce,
- 0xd0, 0xd2, 0xd4, 0xd6, 0xd8, 0xda, 0xdc} ;
-#endif
-
-#ifdef MCA
-int opt_ints[] = {3, 11, 10, 9} ; /* FM1 */
-int opt_eproms[] = {0, 0xc4, 0xc8, 0xcc, 0xd0, 0xd4, 0xd8, 0xdc} ;
-#endif /* MCA */
/*
* xPOS_ID:xxxx
*/
#ifndef MULT_OEM
#ifndef OEM_CONCEPT
-#ifndef MCA
const u_char oem_id[] = "xPOS_ID:xxxx" ;
-#else
-const u_char oem_id[] = "xPOSID1:xxxx" ; /* FM1 card id. */
-#endif
#else /* OEM_CONCEPT */
-#ifndef MCA
const u_char oem_id[] = OEM_ID ;
-#else
-const u_char oem_id[] = OEM_ID1 ; /* FM1 card id. */
-#endif /* MCA */
#endif /* OEM_CONCEPT */
#define ID_BYTE0 8
#define OEMID(smc,i) oem_id[ID_BYTE0 + i]
/* Prototype of a local function. */
static void smt_stop_watchdog(struct s_smc *smc);
-#ifdef MCA
-static int read_card_id() ;
-static void DisableSlotAccess() ;
-static void EnableSlotAccess() ;
-#ifdef AIX
-extern int attach_POS_addr() ;
-extern int detach_POS_addr() ;
-extern u_char read_POS() ;
-extern void write_POS() ;
-extern int AIX_vpdReadByte() ;
-#else
-#define read_POS(smc,a1,a2) ((u_char) inp(a1))
-#define write_POS(smc,a1,a2,a3) outp((a1),(a3))
-#endif
-#endif /* MCA */
-
-
/*
* FDDI card reset
*/
smt_stop_watchdog(smc) ;
-#ifdef ISA
- outpw(CSR_A,0) ; /* reset for all chips */
- for (i = 10 ; i ; i--) /* delay for PLC's */
- (void)inpw(ISR_A) ;
- OUT_82c54_TIMER(3,COUNT(2) | RW_OP(3) | TMODE(2)) ;
- /* counter 2, mode 2 */
- OUT_82c54_TIMER(2,97) ; /* LSB */
- OUT_82c54_TIMER(2,0) ; /* MSB ( 15.6 us ) */
- outpw(CSR_A,CS_CRESET) ;
-#endif
-#ifdef EISA
- outpw(CSR_A,0) ; /* reset for all chips */
- for (i = 10 ; i ; i--) /* delay for PLC's */
- (void)inpw(ISR_A) ;
- outpw(CSR_A,CS_CRESET) ;
- smc->hw.led = (2<<6) ;
- outpw(CSR_A,CS_CRESET | smc->hw.led) ;
-#endif
-#ifdef MCA
- outp(ADDR(CARD_DIS),0) ; /* reset for all chips */
- for (i = 10 ; i ; i--) /* delay for PLC's */
- (void)inpw(ISR_A) ;
- outp(ADDR(CARD_EN),0) ;
- /* first I/O after reset must not be a access to FORMAC or PLC */
-
- /*
- * bus timeout (MCA)
- */
- OUT_82c54_TIMER(3,COUNT(2) | RW_OP(3) | TMODE(3)) ;
- /* counter 2, mode 3 */
- OUT_82c54_TIMER(2,(2*24)) ; /* 3.9 us * 2 square wave */
- OUT_82c54_TIMER(2,0) ; /* MSB */
-
- /* POS 102 indicated an activ Check Line or Buss Error monitoring */
- if (inpw(CSA_A) & (POS_EN_CHKINT | POS_EN_BUS_ERR)) {
- outp(ADDR(IRQ_CHCK_EN),0) ;
- }
-
- if (!((i = inpw(CSR_A)) & CS_SAS)) {
- if (!(i & CS_BYSTAT)) {
- outp(ADDR(BYPASS(STAT_INS)),0) ;/* insert station */
- }
- }
- outpw(LEDR_A,LED_1) ; /* yellow */
-#endif /* MCA */
#ifdef PCI
/*
* make sure no transfer activity is pending
{
smt_stop_watchdog(smc) ;
smc->hw.mac_ring_is_up = 0 ; /* ring down */
-#ifdef ISA
- outpw(CSR_A,0) ; /* reset for all chips */
-#endif
-#ifdef EISA
- outpw(CSR_A,0) ; /* reset for all chips */
-#endif
-#ifdef MCA
- outp(ADDR(CARD_DIS),0) ; /* reset for all chips */
-#endif
+
#ifdef PCI
/*
* make sure no transfer activity is pending
{
int restart_tx = 0 ;
again:
-#ifndef PCI
-#ifndef ISA
-/*
- * FORMAC+ bug modified the queue pointer if many read/write accesses happens!?
- */
- if (stl & (FM_SPCEPDS | /* parit/coding err. syn.q.*/
- FM_SPCEPDA0 | /* parit/coding err. a.q.0 */
- FM_SPCEPDA1 | /* parit/coding err. a.q.1 */
- FM_SPCEPDA2)) { /* parit/coding err. a.q.2 */
- SMT_PANIC(smc,SMT_E0132, SMT_E0132_MSG) ;
- }
- if (stl & (FM_STBURS | /* tx buffer underrun syn.q.*/
- FM_STBURA0 | /* tx buffer underrun a.q.0 */
- FM_STBURA1 | /* tx buffer underrun a.q.1 */
- FM_STBURA2)) { /* tx buffer underrun a.q.2 */
- SMT_PANIC(smc,SMT_E0133, SMT_E0133_MSG) ;
- }
-#endif
- if ( (stu & (FM_SXMTABT | /* transmit abort */
-#ifdef SYNC
- FM_STXABRS | /* syn. tx abort */
-#endif /* SYNC */
- FM_STXABRA0)) || /* asyn. tx abort */
- (stl & (FM_SQLCKS | /* lock for syn. q. */
- FM_SQLCKA0)) ) { /* lock for asyn. q. */
- formac_tx_restart(smc) ; /* init tx */
- restart_tx = 1 ;
- stu = inpw(FM_A(FM_ST1U)) ;
- stl = inpw(FM_A(FM_ST1L)) ;
- stu &= ~ (FM_STECFRMA0 | FM_STEFRMA0 | FM_STEFRMS) ;
- if (stu || stl)
- goto again ;
- }
-
-#ifndef SYNC
- if (stu & (FM_STECFRMA0 | /* end of chain asyn tx */
- FM_STEFRMA0)) { /* end of frame asyn tx */
- /* free tx_queue */
- smc->hw.n_a_send = 0 ;
- if (++smc->hw.fp.tx_free < smc->hw.fp.tx_max) {
- start_next_send(smc);
- }
- restart_tx = 1 ;
- }
-#else /* SYNC */
- if (stu & (FM_STEFRMA0 | /* end of asyn tx */
- FM_STEFRMS)) { /* end of sync tx */
- restart_tx = 1 ;
- }
-#endif /* SYNC */
- if (restart_tx)
- llc_restart_tx(smc) ;
-}
-#else /* PCI */
/*
* parity error: note encoding error is not possible in tag mode
if (restart_tx)
llc_restart_tx(smc) ;
}
-#endif /* PCI */
+
/*
* interrupt source= plc1
* this function is called in nwfbisr.asm
{
u_short st = inpw(PLC(PB,PL_INTR_EVENT)) ;
-#if (defined(ISA) || defined(EISA))
- /* reset PLC Int. bits */
- outpw(PLC1_I,inpw(PLC1_I)) ;
-#endif
plc_irq(smc,PB,st) ;
}
{
u_short st = inpw(PLC(PA,PL_INTR_EVENT)) ;
-#if (defined(ISA) || defined(EISA))
- /* reset PLC Int. bits */
- outpw(PLC2_I,inpw(PLC2_I)) ;
-#endif
plc_irq(smc,PA,st) ;
}
char PmdType ;
int i ;
-#if (defined(ISA) || defined(MCA))
- for (i = 0; i < 4 ;i++) { /* read mac address from board */
- smc->hw.fddi_phys_addr.a[i] =
- bitrev8(inpw(PR_A(i+SA_MAC)));
- }
- for (i = 4; i < 6; i++) {
- smc->hw.fddi_phys_addr.a[i] =
- bitrev8(inpw(PR_A(i+SA_MAC+PRA_OFF)));
- }
-#endif
-#ifdef EISA
- /*
- * Note: We get trouble on an Alpha machine if we make a inpw()
- * instead of inp()
- */
- for (i = 0; i < 4 ;i++) { /* read mac address from board */
- smc->hw.fddi_phys_addr.a[i] =
- bitrev8(inp(PR_A(i+SA_MAC)));
- }
- for (i = 4; i < 6; i++) {
- smc->hw.fddi_phys_addr.a[i] =
- bitrev8(inp(PR_A(i+SA_MAC+PRA_OFF)));
- }
-#endif
#ifdef PCI
for (i = 0; i < 6; i++) { /* read mac address from board */
smc->hw.fddi_phys_addr.a[i] =
bitrev8(inp(ADDR(B2_MAC_0+i)));
}
#endif
-#ifndef PCI
- ConnectorType = inpw(PR_A(SA_PMD_TYPE)) & 0xff ;
- PmdType = inpw(PR_A(SA_PMD_TYPE+1)) & 0xff ;
-#else
+
ConnectorType = inp(ADDR(B2_CONN_TYP)) ;
PmdType = inp(ADDR(B2_PMD_TYP)) ;
-#endif
smc->y[PA].pmd_type[PMD_SK_CONN] =
smc->y[PB].pmd_type[PMD_SK_CONN] = ConnectorType ;
card_start(smc) ;
read_address(smc,mac_addr) ;
-#ifndef PCI
- if (inpw(CSR_A) & CS_SAS)
-#else
if (!(inp(ADDR(B0_DAS)) & DAS_AVAIL))
-#endif
smc->s.sas = SMT_SAS ; /* Single att. station */
else
smc->s.sas = SMT_DAS ; /* Dual att. station */
-#ifndef PCI
- if (inpw(CSR_A) & CS_BYSTAT)
-#else
if (!(inp(ADDR(B0_DAS)) & DAS_BYP_ST))
-#endif
smc->mib.fddiSMTBypassPresent = 0 ;
/* without opt. bypass */
else
*/
void sm_pm_bypass_req(struct s_smc *smc, int mode)
{
-#if (defined(ISA) || defined(EISA))
- int csra_v ;
-#endif
-
DB_ECMN(1,"ECM : sm_pm_bypass_req(%s)\n",(mode == BP_INSERT) ?
"BP_INSERT" : "BP_DEINSERT",0) ;
if (smc->s.sas != SMT_DAS)
return ;
-#if (defined(ISA) || defined(EISA))
-
- csra_v = inpw(CSR_A) & ~CS_BYPASS ;
-#ifdef EISA
- csra_v |= smc->hw.led ;
-#endif
-
- switch(mode) {
- case BP_INSERT :
- outpw(CSR_A,csra_v | CS_BYPASS) ;
- break ;
- case BP_DEINSERT :
- outpw(CSR_A,csra_v) ;
- break ;
- }
-#endif /* ISA / EISA */
-#ifdef MCA
- switch(mode) {
- case BP_INSERT :
- outp(ADDR(BYPASS(STAT_INS)),0) ;/* insert station */
- break ;
- case BP_DEINSERT :
- outp(ADDR(BYPASS(STAT_BYP)),0) ; /* bypass station */
- break ;
- }
-#endif
#ifdef PCI
switch(mode) {
case BP_INSERT :
*/
int sm_pm_bypass_present(struct s_smc *smc)
{
-#ifndef PCI
- return( (inpw(CSR_A) & CS_BYSTAT) ? FALSE : TRUE ) ;
-#else
return( (inp(ADDR(B0_DAS)) & DAS_BYP_ST) ? TRUE: FALSE) ;
-#endif
}
void plc_clear_irq(struct s_smc *smc, int p)
{
SK_UNUSED(p) ;
-#if (defined(ISA) || defined(EISA))
- switch (p) {
- case PA :
- /* reset PLC Int. bits */
- outpw(PLC2_I,inpw(PLC2_I)) ;
- break ;
- case PB :
- /* reset PLC Int. bits */
- outpw(PLC1_I,inpw(PLC1_I)) ;
- break ;
- }
-#else
SK_UNUSED(smc) ;
-#endif
}
phy = &smc->y[PB] ;
mib_b = phy->mib ;
-#ifdef EISA
- /* Ring up = yellow led OFF*/
- if (led_event == LED_Y_ON) {
- smc->hw.led |= CS_LED_1 ;
- }
- else if (led_event == LED_Y_OFF) {
- smc->hw.led &= ~CS_LED_1 ;
- }
- else {
- /* Link at Port A or B = green led ON */
- if (mib_a->fddiPORTPCMState == PC8_ACTIVE ||
- mib_b->fddiPORTPCMState == PC8_ACTIVE) {
- smc->hw.led |= CS_LED_0 ;
- }
- else {
- smc->hw.led &= ~CS_LED_0 ;
- }
- }
-#endif
-#ifdef MCA
- led_state = inpw(LEDR_A) ;
-
- /* Ring up = yellow led OFF*/
- if (led_event == LED_Y_ON) {
- led_state |= LED_1 ;
- }
- else if (led_event == LED_Y_OFF) {
- led_state &= ~LED_1 ;
- }
- else {
- led_state &= ~(LED_2|LED_0) ;
-
- /* Link at Port A = green led A ON */
- if (mib_a->fddiPORTPCMState == PC8_ACTIVE) {
- led_state |= LED_2 ;
- }
-
- /* Link at Port B/S = green led B ON */
- if (mib_b->fddiPORTPCMState == PC8_ACTIVE) {
- led_state |= LED_0 ;
- }
- }
-
- outpw(LEDR_A, led_state) ;
-#endif /* MCA */
#ifdef PCI
led_state = 0 ;
}
#endif /* MULT_OEM */
-
-#ifdef MCA
-/************************
- *
- * BEGIN_MANUAL_ENTRY()
- *
- * exist_board
- *
- * Check if an MCA board is present in the specified slot.
- *
- * int exist_board(
- * struct s_smc *smc,
- * int slot) ;
- * In
- * smc - A pointer to the SMT Context struct.
- *
- * slot - The number of the slot to inspect.
- * Out
- * 0 = No adapter present.
- * 1 = Found FM1 adapter.
- *
- * Pseudo
- * Read MCA ID
- * for all valid OEM_IDs
- * compare with ID read
- * if equal, return 1
- * return(0
- *
- * Note
- * The smc pointer must be valid now.
- *
- * END_MANUAL_ENTRY()
- *
- ************************/
-#define LONG_CARD_ID(lo, hi) ((((hi) & 0xff) << 8) | ((lo) & 0xff))
-int exist_board(struct s_smc *smc, int slot)
-{
-#ifdef MULT_OEM
- SK_LOC_DECL(u_char,id[2]) ;
- int idi ;
-#endif /* MULT_OEM */
-
- /* No longer valid. */
- if (smc == NULL)
- return(0) ;
-
-#ifndef MULT_OEM
- if (read_card_id(smc, slot)
- == LONG_CARD_ID(OEMID(smc,0), OEMID(smc,1)))
- return (1) ; /* Found FM adapter. */
-
-#else /* MULT_OEM */
- idi = read_card_id(smc, slot) ;
- id[0] = idi & 0xff ;
- id[1] = idi >> 8 ;
-
- smc->hw.oem_id = (struct s_oem_ids *) &oem_ids[0] ;
- for (; smc->hw.oem_id->oi_status != OI_STAT_LAST; smc->hw.oem_id++) {
- if (smc->hw.oem_id->oi_status < smc->hw.oem_min_status)
- continue ;
-
- if (is_equal_num(&id[0],&OEMID(smc,0),2))
- return (1) ;
- }
-#endif /* MULT_OEM */
- return (0) ; /* No adapter found. */
-}
-
-/************************
- *
- * read_card_id
- *
- * Read the MCA card id from the specified slot.
- * In
- * smc - A pointer to the SMT Context struct.
- * CAVEAT: This pointer may be NULL and *must not* be used within this
- * function. It's only purpose is for drivers that need some information
- * for the inp() and outp() macros.
- *
- * slot - The number of the slot for which the card id is returned.
- * Out
- * Returns the card id read from the specified slot. If an illegal slot
- * number is specified, the function returns zero.
- *
- ************************/
-static int read_card_id(struct s_smc *smc, int slot)
-/* struct s_smc *smc ; Do not use. */
-{
- int card_id ;
-
- SK_UNUSED(smc) ; /* Make LINT happy. */
- if ((slot < 1) || (slot > 15)) /* max 16 slots, 0 = motherboard */
- return (0) ; /* Illegal slot number specified. */
-
- EnableSlotAccess(smc, slot) ;
-
- card_id = ((read_POS(smc,POS_ID_HIGH,slot - 1) & 0xff) << 8) |
- (read_POS(smc,POS_ID_LOW,slot - 1) & 0xff) ;
-
- DisableSlotAccess(smc) ;
-
- return (card_id) ;
-}
-
-/************************
- *
- * BEGIN_MANUAL_ENTRY()
- *
- * get_board_para
- *
- * Get adapter configuration information. Fill all board specific
- * parameters within the 'smc' structure.
- *
- * int get_board_para(
- * struct s_smc *smc,
- * int slot) ;
- * In
- * smc - A pointer to the SMT Context struct, to which this function will
- * write some adapter configuration data.
- *
- * slot - The number of the slot, in which the adapter is installed.
- * Out
- * 0 = No adapter present.
- * 1 = Ok.
- * 2 = Adapter present, but card enable bit not set.
- *
- * END_MANUAL_ENTRY()
- *
- ************************/
-int get_board_para(struct s_smc *smc, int slot)
-{
- int val ;
- int i ;
-
- /* Check if adapter present & get type of adapter. */
- switch (exist_board(smc, slot)) {
- case 0: /* Adapter not present. */
- return (0) ;
- case 1: /* FM Rev. 1 */
- smc->hw.rev = FM1_REV ;
- smc->hw.VFullRead = 0x0a ;
- smc->hw.VFullWrite = 0x05 ;
- smc->hw.DmaWriteExtraBytes = 8 ; /* 2 extra words. */
- break ;
- }
- smc->hw.slot = slot ;
-
- EnableSlotAccess(smc, slot) ;
-
- if (!(read_POS(smc,POS_102, slot - 1) & POS_CARD_EN)) {
- DisableSlotAccess(smc) ;
- return (2) ; /* Card enable bit not set. */
- }
-
- val = read_POS(smc,POS_104, slot - 1) ; /* I/O, IRQ */
-
-#ifndef MEM_MAPPED_IO /* is defined by the operating system */
- i = val & POS_IOSEL ; /* I/O base addr. (0x0200 .. 0xfe00) */
- smc->hw.iop = (i + 1) * 0x0400 - 0x200 ;
-#endif
- i = ((val & POS_IRQSEL) >> 6) & 0x03 ; /* IRQ <0, 1> */
- smc->hw.irq = opt_ints[i] ;
-
- /* FPROM base addr. */
- i = ((read_POS(smc,POS_103, slot - 1) & POS_MSEL) >> 4) & 0x07 ;
- smc->hw.eprom = opt_eproms[i] ;
-
- DisableSlotAccess(smc) ;
-
- /* before this, the smc->hw.iop must be set !!! */
- smc->hw.slot_32 = inpw(CSF_A) & SLOT_32 ;
-
- return (1) ;
-}
-
-/* Enable access to specified MCA slot. */
-static void EnableSlotAccess(struct s_smc *smc, int slot)
-{
- SK_UNUSED(slot) ;
-
-#ifndef AIX
- SK_UNUSED(smc) ;
-
- /* System mode. */
- outp(POS_SYS_SETUP, POS_SYSTEM) ;
-
- /* Select slot. */
- outp(POS_CHANNEL_POS, POS_CHANNEL_BIT | (slot-1)) ;
-#else
- attach_POS_addr (smc) ;
-#endif
-}
-
-/* Disable access to MCA slot formerly enabled via EnableSlotAccess(). */
-static void DisableSlotAccess(struct s_smc *smc)
-{
-#ifndef AIX
- SK_UNUSED(smc) ;
-
- outp(POS_CHANNEL_POS, 0) ;
-#else
- detach_POS_addr (smc) ;
-#endif
-}
-#endif /* MCA */
-
-#ifdef EISA
-#ifndef MEM_MAPPED_IO
-#define SADDR(slot) (((slot)<<12)&0xf000)
-#else /* MEM_MAPPED_IO */
-#define SADDR(slot) (smc->hw.iop)
-#endif /* MEM_MAPPED_IO */
-
-/************************
- *
- * BEGIN_MANUAL_ENTRY()
- *
- * exist_board
- *
- * Check if an EISA board is present in the specified slot.
- *
- * int exist_board(
- * struct s_smc *smc,
- * int slot) ;
- * In
- * smc - A pointer to the SMT Context struct.
- *
- * slot - The number of the slot to inspect.
- * Out
- * 0 = No adapter present.
- * 1 = Found adapter.
- *
- * Pseudo
- * Read EISA ID
- * for all valid OEM_IDs
- * compare with ID read
- * if equal, return 1
- * return(0
- *
- * Note
- * The smc pointer must be valid now.
- *
- ************************/
-int exist_board(struct s_smc *smc, int slot)
-{
- int i ;
-#ifdef MULT_OEM
- SK_LOC_DECL(u_char,id[4]) ;
-#endif /* MULT_OEM */
-
- /* No longer valid. */
- if (smc == NULL)
- return(0);
-
- SK_UNUSED(slot) ;
-
-#ifndef MULT_OEM
- for (i = 0 ; i < 4 ; i++) {
- if (inp(SADDR(slot)+PRA(i)) != OEMID(smc,i))
- return(0) ;
- }
- return(1) ;
-#else /* MULT_OEM */
- for (i = 0 ; i < 4 ; i++)
- id[i] = inp(SADDR(slot)+PRA(i)) ;
-
- smc->hw.oem_id = (struct s_oem_ids *) &oem_ids[0] ;
-
- for (; smc->hw.oem_id->oi_status != OI_STAT_LAST; smc->hw.oem_id++) {
- if (smc->hw.oem_id->oi_status < smc->hw.oem_min_status)
- continue ;
-
- if (is_equal_num(&id[0],&OEMID(smc,0),4))
- return (1) ;
- }
- return (0) ; /* No adapter found. */
-#endif /* MULT_OEM */
-}
-
-
-int get_board_para(struct s_smc *smc, int slot)
-{
- int i ;
-
- if (!exist_board(smc,slot))
- return(0) ;
-
- smc->hw.slot = slot ;
-#ifndef MEM_MAPPED_IO /* if defined by the operating system */
- smc->hw.iop = SADDR(slot) ;
-#endif
-
- if (!(inp(C0_A(0))&CFG_CARD_EN)) {
- return(2) ; /* CFG_CARD_EN bit not set! */
- }
-
- smc->hw.irq = opt_ints[(inp(C1_A(0)) & CFG_IRQ_SEL)] ;
- smc->hw.dma = opt_dmas[((inp(C1_A(0)) & CFG_DRQ_SEL)>>3)] ;
-
- if ((i = inp(C2_A(0)) & CFG_EPROM_SEL) != 0x0f)
- smc->hw.eprom = opt_eproms[i] ;
- else
- smc->hw.eprom = 0 ;
-
- smc->hw.DmaWriteExtraBytes = 8 ;
-
- return(1) ;
-}
-#endif /* EISA */
-
-#ifdef ISA
-#ifndef MULT_OEM
-const u_char sklogo[6] = SKLOGO_STR ;
-#define SIZE_SKLOGO(smc) sizeof(sklogo)
-#define SKLOGO(smc,i) sklogo[i]
-#else /* MULT_OEM */
-#define SIZE_SKLOGO(smc) smc->hw.oem_id->oi_logo_len
-#define SKLOGO(smc,i) smc->hw.oem_id->oi_logo[i]
-#endif /* MULT_OEM */
-
-
-int exist_board(struct s_smc *smc, HW_PTR port)
-{
- int i ;
-#ifdef MULT_OEM
- int bytes_read ;
- u_char board_logo[15] ;
- SK_LOC_DECL(u_char,id[4]) ;
-#endif /* MULT_OEM */
-
- /* No longer valid. */
- if (smc == NULL)
- return(0);
-
- SK_UNUSED(smc) ;
-#ifndef MULT_OEM
- for (i = SADDRL ; i < (signed) (SADDRL+SIZE_SKLOGO(smc)) ; i++) {
- if ((u_char)inpw((PRA(i)+port)) != SKLOGO(smc,i-SADDRL)) {
- return(0) ;
- }
- }
-
- /* check MAC address (S&K or other) */
- for (i = 0 ; i < 3 ; i++) {
- if ((u_char)inpw((PRA(i)+port)) != OEMID(smc,i))
- return(0) ;
- }
- return(1) ;
-#else /* MULT_OEM */
- smc->hw.oem_id = (struct s_oem_ids *) &oem_ids[0] ;
- board_logo[0] = (u_char)inpw((PRA(SADDRL)+port)) ;
- bytes_read = 1 ;
-
- for (; smc->hw.oem_id->oi_status != OI_STAT_LAST; smc->hw.oem_id++) {
- if (smc->hw.oem_id->oi_status < smc->hw.oem_min_status)
- continue ;
-
- /* Test all read bytes with current OEM_entry */
- /* for (i=0; (i<bytes_read) && (i < SIZE_SKLOGO(smc)); i++) { */
- for (i = 0; i < bytes_read; i++) {
- if (board_logo[i] != SKLOGO(smc,i))
- break ;
- }
-
- /* If mismatch, switch to next OEM entry */
- if ((board_logo[i] != SKLOGO(smc,i)) && (i < bytes_read))
- continue ;
-
- --i ;
- while (bytes_read < SIZE_SKLOGO(smc)) {
- // inpw next byte SK_Logo
- i++ ;
- board_logo[i] = (u_char)inpw((PRA(SADDRL+i)+port)) ;
- bytes_read++ ;
- if (board_logo[i] != SKLOGO(smc,i))
- break ;
- }
-
- for (i = 0 ; i < 3 ; i++)
- id[i] = (u_char)inpw((PRA(i)+port)) ;
-
- if ((board_logo[i] == SKLOGO(smc,i))
- && (bytes_read == SIZE_SKLOGO(smc))) {
-
- if (is_equal_num(&id[0],&OEMID(smc,0),3))
- return(1);
- }
- } /* for */
- return(0) ;
-#endif /* MULT_OEM */
-}
-
-int get_board_para(struct s_smc *smc, int slot)
-{
- SK_UNUSED(smc) ;
- SK_UNUSED(slot) ;
- return(0) ; /* for ISA not supported */
-}
-#endif /* ISA */
-
#ifdef PCI
#ifdef USE_BIOS_FUN
int exist_board(struct s_smc *smc, int slot)
#endif
/*
- * physical address offset + IO-Port base address
- */
-#ifndef PCI
-#define ADDR(a) ((a)+smc->hw.iop)
-#define ADDRS(smc,a) ((a)+(smc)->hw.iop)
-#endif
-
-/*
- * FDDI-Fx (x := {I(SA), E(ISA), M(CA), P(CI)})
+ * FDDI-Fx (x := {I(SA), P(CI)})
* address calculation & function defines
*/
-#ifdef EISA
-
-/*
- * Configuration PROM: !! all 8-Bit IO's !!
- * |<- MAC-Address ->|
- * /-+--+--+--+--+-//-+--+--+--+--+-//-+--+--+--+--+-//-+--+--+--+--+-/
- * val: |PROD_ID0..3| | free | |00|00|5A|40| |nn|mm|00|00|
- * /-+--+--+--+--+-//-+--+--+--+--+-//-+--+--+--+--+-//-+--+--+--+--+-/
- * IO- ^ ^ ^ ^ ^
- * port 0C80 0C83 0C88 0C90 0C98
- * | \
- * | \
- * | \______________________________________________
- * EISA Expansion Board Product ID: \
- * BIT: |7 6 5 4 3 2 1 0| \
- * | PROD_ID0 | PROD_ID1 | PROD_ID2 | PROD_ID3 |
- * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
- * |0| MAN_C0 | MAN_C1 | MAN_C2 | PROD1 | PROD0 | REV1 | REV0 |
- * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
- * ^=reserved | product numb. | revision numb |
- * MAN_Cx = compressed manufacterer code (x:=0..2)
- * ASCII : 'A'..'Z' : 0x41..0x5A -> compr.(c-0x40) : 0x01..0x1A (5Bits!)
- */
-
-#ifndef MULT_OEM
-#ifndef OEM_CONCEPT
-#define MAN_C0 ('S'-0x40)
-#define MAN_C1 ('K'-0x40)
-#define MAN_C2 ('D'-0x40)
-#define PROD_ID0 (u_char)((MAN_C0<<2) | (MAN_C1>>3))
-#define PROD_ID1 (u_char)(((MAN_C1<<5) & 0xff) | MAN_C2)
-#define PROD_ID2 (u_char)(1) /* prod. nr. */
-#define PROD_ID3 (u_char)(0) /* rev. nr. */
-
-#ifndef OEM_USER_DATA
-#define OEM_USER_DATA "SK-NET FDDI V2.0 Userdata"
-#endif
-#else /* OEM_CONCEPT */
-
-/* MAN_C(0|1|2) no longer present (ra). */
-#define PROD_ID0 (u_char)OEM_PROD_ID0
-#define PROD_ID1 (u_char)OEM_PROD_ID1
-#define PROD_ID2 (u_char)OEM_PROD_ID2
-#define PROD_ID3 (u_char)OEM_PROD_ID3
-#endif /* OEM_CONCEPT */
-
-#define SKLOGO PROD_ID0, PROD_ID1, PROD_ID2, PROD_ID3
-#endif /* MULT_OEM */
-
-#define SADDRL (0) /* start address SKLOGO */
-#define SA_MAC (0x10) /* start addr. MAC_AD within the PROM */
-#define PRA_OFF (4)
-#define SA_PMD_TYPE (8) /* start addr. PMD-Type */
-
-#define SKFDDI_PSZ 32 /* address PROM size */
-
-/*
- * address transmission from logical to physical offset address on board
- */
-#define FMA(a) (0x0400|((a)<<1)) /* FORMAC+ (r/w) */
-#define P1A(a) (0x0800|((a)<<1)) /* PLC1 (r/w) */
-#define P2A(a) (0x0840|((a)<<1)) /* PLC2 (r/w) */
-#define TIA(a) (0x0880|((a)<<1)) /* Timer (r/w) */
-#define PRA(a) (0x0c80| (a)) /* configuration PROM */
-#define C0A(a) (0x0c84| (a)) /* config. RAM */
-#define C1A(a) (0x0ca0| (a)) /* IRQ-, DMA-nr., EPROM type */
-#define C2A(a) (0x0ca4| (a)) /* EPROM and PAGE selector */
-
-#define CONF C0A(0) /* config RAM (card enable bit port) */
-#define PGRA C2A(0) /* Flash page register */
-#define CDID PRA(0) /* Card ID I/O port addr. offset */
-
-
-/*
- * physical address offset + slot specific IO-Port base address
- */
-#define FM_A(a) (FMA(a)+smc->hw.iop) /* FORMAC Plus physical addr */
-#define P1_A(a) (P1A(a)+smc->hw.iop) /* PLC1 (r/w) */
-#define P2_A(a) (P2A(a)+smc->hw.iop) /* PLC2 (r/w) */
-#define TI_A(a) (TIA(a)+smc->hw.iop) /* Timer (r/w) */
-#define PR_A(a) (PRA(a)+smc->hw.iop) /* config. PROM */
-#define C0_A(a) (C0A(a)+smc->hw.iop) /* config. RAM */
-#define C1_A(a) (C1A(a)+smc->hw.iop) /* config. RAM */
-#define C2_A(a) (C2A(a)+smc->hw.iop) /* config. RAM */
-
-
-#define CSRA 0x0008 /* control/status register address (r/w) */
-#define ISRA 0x0008 /* int. source register address (upper 8Bits) */
-#define PLC1I 0x001a /* clear PLC1 interrupt (write only) */
-#define PLC2I 0x0020 /* clear PLC2 interrupt (write only) */
-#define CSFA 0x001c /* control/status FIFO BUSY flags (read only) */
-#define RQAA 0x001c /* Request reg. (write only) */
-#define WCTA 0x001e /* word counter (r/w) */
-#define FFLAG 0x005e /* FLAG/V_FULL (FIFO almost full, write only)*/
-
-#define CSR_A (CSRA+smc->hw.iop) /* control/status register address (r/w) */
-#ifdef UNIX
-#define CSR_AS(smc) (CSRA+(smc)->hw.iop) /* control/status register address (r/w) */
-#endif
-#define ISR_A (ISRA+smc->hw.iop) /* int. source register address (upper 8Bits) */
-#define PLC1_I (PLC1I+smc->hw.iop) /* clear PLC1 internupt (write only) */
-#define PLC2_I (PLC2I+smc->hw.iop) /* clear PLC2 interrupt (write only) */
-#define CSF_A (CSFA+smc->hw.iop) /* control/status FIFO BUSY flags (r/w) */
-#define RQA_A (RQAA+smc->hw.iop) /* Request reg. (write only) */
-#define WCT_A (WCTA+smc->hw.iop) /* word counter (r/w) */
-#define FFLAG_A (FFLAG+smc->hw.iop) /* FLAG/V_FULL (FIFO almost full, write only)*/
-
-/*
- * control/status register CSRA bits
- */
-/* write */
-#define CS_CRESET 0x01 /* Card reset (0=reset) */
-#define CS_RESET_FIFO 0x02 /* FIFO reset (0=reset) */
-#define CS_IMSK 0x04 /* enable IRQ (1=enable, 0=disable) */
-#define CS_EN_IRQ_TC 0x08 /* enable IRQ from transfer counter */
-#define CS_BYPASS 0x20 /* bypass switch (0=remove, 1=insert)*/
-#define CS_LED_0 0x40 /* switch LED 0 */
-#define CS_LED_1 0x80 /* switch LED 1 */
-/* read */
-#define CS_BYSTAT 0x40 /* 0=Bypass exist, 1= ..not */
-#define CS_SAS 0x80 /* single attachement station (=1) */
-
-/*
- * control/status register CSFA bits (FIFO)
- */
-#define CSF_MUX0 0x01
-#define CSF_MUX1 0x02
-#define CSF_HSREQ0 0x04
-#define CSF_HSREQ1 0x08
-#define CSF_HSREQ2 0x10
-#define CSF_BUSY_DMA 0x40
-#define CSF_BUSY_FIFO 0x80
-
-/*
- * Interrupt source register ISRA (upper 8 data bits) read only & low activ.
- */
-#define IS_MINTR1 0x0100 /* FORMAC ST1U/L & ~IMSK1U/L*/
-#define IS_MINTR2 0x0200 /* FORMAC ST2U/L & ~IMSK2U/L*/
-#define IS_PLINT1 0x0400 /* PLC1 */
-#define IS_PLINT2 0x0800 /* PLC2 */
-#define IS_TIMINT 0x1000 /* Timer 82C54-2 */
-#define IS_TC 0x2000 /* transf. counter */
-
-#define ALL_IRSR (IS_MINTR1|IS_MINTR2|IS_PLINT1|IS_PLINT2|IS_TIMINT|IS_TC)
-
-/*
- * CONFIG<0> RAM (C0_A())
- */
-#define CFG_CARD_EN 0x01 /* card enable */
-
-/*
- * CONFIG<1> RAM (C1_A())
- */
-#define CFG_IRQ_SEL 0x03 /* IRQ select (4 nr.) */
-#define CFG_IRQ_TT 0x04 /* IRQ trigger type (LEVEL/EDGE) */
-#define CFG_DRQ_SEL 0x18 /* DMA requ. (4 nr.) */
-#define CFG_BOOT_EN 0x20 /* 0=BOOT-, 1=Application Software */
-#define CFG_PROG_EN 0x40 /* V_Prog for FLASH_PROM (1=on) */
-
-/*
- * CONFIG<2> RAM (C2_A())
- */
-#define CFG_EPROM_SEL 0x0f /* FPROM start address selection */
-#define CFG_PAGE 0xf0 /* FPROM page selection */
-
-
-#define READ_PROM(a) ((u_char)inp(a))
-#define GET_PAGE(i) outp(C2_A(0),((int)(i)<<4) | (inp(C2_A(0)) & ~CFG_PAGE))
-#define FPROM_SW() (inp(C1_A(0)) & CFG_BOOT_EN)
-
-#define MAX_PAGES 16 /* 16 pages */
-#define MAX_FADDR 0x2000 /* 8K per page */
-#define VPP_ON() outp(C1_A(0),inp(C1_A(0)) | CFG_PROG_EN)
-#define VPP_OFF() outp(C1_A(0),inp(C1_A(0)) & ~CFG_PROG_EN)
-
-#define DMA_BUSY() (inpw(CSF_A) & CSF_BUSY_DMA)
-#define FIFO_BUSY() (inpw(CSF_A) & CSF_BUSY_FIFO)
-#define DMA_FIFO_BUSY() (inpw(CSF_A) & (CSF_BUSY_DMA | CSF_BUSY_FIFO))
-#define BUS_CHECK()
-
-#ifdef UNISYS
-/* For UNISYS use another macro with drv_usecewait function */
-#define CHECK_DMA() {u_long k = 1000000; \
- while (k && (DMA_BUSY())) { k--; drv_usecwait(20); } \
- if (!k) SMT_PANIC(smc,HWM_E0003,HWM_E0003_MSG) ; }
-#else
-#define CHECK_DMA() {u_long k = 1000000 ;\
- while (k && (DMA_BUSY())) k-- ;\
- if (!k) SMT_PANIC(smc,HWM_E0003,HWM_E0003_MSG) ; }
-#endif
-
-#define CHECK_FIFO() {u_long k = 1000000 ;\
- while (k && (FIFO_BUSY())) k-- ;\
- if (!k) SMT_PANIC(smc,HWM_E0019,HWM_E0019_MSG) ; }
-
-#define CHECK_DMA_FIFO() {u_long k = 1000000 ;\
- while (k && (DMA_FIFO_BUSY())) k-- ;\
- if (!k) SMT_PANIC(smc,HWM_E0004,HWM_E0004_MSG) ; }
-
-#define GET_ISR() ~inpw(ISR_A)
-#define CHECK_ISR() ~inpw(ISR_A)
-
-#ifndef UNIX
-#ifndef WINNT
-#define CLI_FBI() outpw(CSR_A,(inpw(CSR_A)&\
- (CS_CRESET|CS_BYPASS))|CS_RESET_FIFO|smc->hw.led)
-#else /* WINNT */
-#define CLI_FBI() outpw(CSR_A,(l_inpw(CSR_A)&\
- (CS_CRESET|CS_BYPASS))|CS_RESET_FIFO|smc->hw.led)
-#endif /* WINNT */
-#else /* UNIX */
-#define CLI_FBI(smc) outpw(CSR_AS(smc),(inpw(CSR_AS(smc))&\
- (CS_CRESET|CS_BYPASS))|CS_RESET_FIFO|(smc)->hw.led)
-#endif
-
-#ifndef UNIX
-#define STI_FBI() outpw(CSR_A,(inpw(CSR_A)&\
- (CS_CRESET|CS_BYPASS|CS_RESET_FIFO))|CS_IMSK|smc->hw.led)
-#else
-#define STI_FBI(smc) outpw(CSR_AS(smc),(inpw(CSR_AS(smc))&\
- (CS_CRESET|CS_BYPASS|CS_RESET_FIFO))|CS_IMSK|(smc)->hw.led)
-#endif
-
-/* EISA DMA Controller */
-#define DMA_WRITE_SINGLE_MASK_BIT_M 0x0a /* Master DMA Controller */
-#define DMA_WRITE_SINGLE_MASK_BIT_S 0xd4 /* Slave DMA Controller */
-#define DMA_CLEAR_BYTE_POINTER_M 0x0c
-#define DMA_CLEAR_BYTE_POINTER_S 0xd8
-
-#endif /* EISA */
-
-#ifdef MCA
-
-/*
- * POS Register: !! all I/O's are 8-Bit !!
- */
-#define POS_SYS_SETUP 0x94 /* system setup register */
-#define POS_SYSTEM 0xff /* system mode */
-
-#define POS_CHANNEL_POS 0x96 /* register slot ID */
-#define POS_CHANNEL_BIT 0x08 /* mask for -"- */
-
-#define POS_BASE 0x100 /* POS base address */
-#define POS_ID_LOW POS_BASE /* card ID low */
-#define POS_ID_HIGH (POS_BASE+1) /* card ID high */
-#define POS_102 (POS_BASE+2) /* card en., arbitration level .. */
-#define POS_103 (POS_BASE+3) /* FPROM addr, page */
-#define POS_104 (POS_BASE+4) /* I/O, IRQ */
-#define POS_105 (POS_BASE+5) /* POS_CHCK */
-#define POS_106 (POS_BASE+6) /* to read VPD */
-#define POS_107 (POS_BASE+7) /* added without function */
-
-/* FM1 card IDs */
-#define FM1_CARD_ID0 0x83
-#define FM1_CARD_ID1 0
-
-#define FM1_IBM_ID0 0x9c
-#define FM1_IBM_ID1 0x8f
-
-
-/* FM2 card IDs */
-#define FM2_CARD_ID0 0xab
-#define FM2_CARD_ID1 0
-
-#define FM2_IBM_ID0 0x7e
-#define FM2_IBM_ID1 0x8f
-
-/* Board revision. */
-#define FM1_REV 0
-#define FM2_REV 1
-
-#define MAX_SLOT 8
-
-/*
- * POS_102
- */
-#define POS_CARD_EN 0x01 /* card enable =1 */
-#define POS_SDAT_EN 0x02 /* enable 32-bit streaming data mode */
-#define POS_EN_CHKINT 0x04 /* enable int. from check line asserted */
-#define POS_EN_BUS_ERR 0x08 /* enable int. on invalid busmaster transf. */
-#define POS_FAIRNESS 0x10 /* fairnes on =1 */
-/* attention: arbitration level used with bit 0 POS 105 */
-#define POS_LARBIT 0xe0 /* arbitration level (0,0,0)->level = 0x8
- (1,1,1)->level = 0xf */
-/*
- * POS_103
- */
-#define POS_PAGE 0x07 /* FPROM page selection */
-#define POS_BOOT_EN 0x08 /* boot PROM enable =1 */
-#define POS_MSEL 0x70 /* memory start address for FPROM mapping */
-#define PROG_EN 0x80 /* FM1: Vpp prog on/off */
-#define POS_SDR 0x80 /* FM2: Streaming data bit */
-
-/*
- * POS_104
- */
-#define POS_IOSEL 0x3f /* selected I/O base address */
-#define POS_IRQSEL 0xc0 /* selected interrupt */
-
-/*
- * POS_105
- */
-#define POS_CHCK 0x80
-#define POS_SYNC_ERR 0x20 /* FM2: synchronous error reporting */
-#define POS_PAR_DATA 0x10 /* FM2: data parity enable bit */
-#define POS_PAR_ADDR 0x08 /* FM2: address parity enable bit */
-#define POS_IRQHSEL 0x02 /* FM2: Highest bit for IRQ_selection */
-#define POS_HARBIT 0x01 /* Highest bit in Bus arbitration selection */
-
-#define SA_MAC (0) /* start addr. MAC_AD within the PROM */
-#define PRA_OFF (0)
-#define SA_PMD_TYPE (8) /* start addr. PMD-Type */
-
-/*
- * address transmission from logical to physical offset address on board
- */
-#define FMA(a) (0x0100|((a)<<1)) /* FORMAC+ (r/w) */
-#define P2(a) (0x00c0|((a)<<1)) /* PLC2 (r/w) (DAS) */
-#define P1(a) (0x0080|((a)<<1)) /* PLC1 (r/w) */
-#define TI(a) (0x0060|((a)<<1)) /* Timer (r/w) */
-#define PR(a) (0x0040|((a)<<1)) /* configuration PROM */
-#define CS(a) (0x0020| (a)) /* control/status */
-#define FF(a) (0x0010|((a)<<1)) /* FIFO ASIC */
-#define CT(a) (0x0000|((a)<<1)) /* counter */
-
-/*
- * counter
- */
-#define ACLA CT(0) /* address counter low */
-#define ACHA CT(1) /* address counter high */
-#define BCN CT(2) /* byte counter */
-#define MUX CT(3) /* MUX-register */
-#define WCN CT(0x08) /* word counter */
-#define FFLG CT(0x09) /* FIFO Flags */
-
-/*
- * test/control register (FM2 only)
- */
-#define CNT_TST 0x018 /* Counter test control register */
-#define CNT_STP 0x01a /* Counter test step reg. (8 Bit) */
-
-/*
- * CS register (read only)
- */
-#define CSRA CS(0) /* control/status register address */
-#define CSFA CS(2) /* control/status FIFO BUSY ... */
-#define ISRA CS(4) /* first int. source register address */
-#define ISR2 CS(6) /* second int. source register address */
-#define LEDR CS(0x0c) /* LED register r/w */
-#define CSIL CS(0x10) /* I/O mapped POS_ID_low (100) */
-#define CSIH CS(0x12) /* - " - POS_ID_HIGH (101) */
-#define CSA CS(0x14) /* - " - POS_102 */
-#define CSM CS(0x0e) /* - " - POS_103 */
-#define CSM_FM1 CS(0x16) /* - " - POS_103 (copy in FM1) */
-#define CSI CS(0x18) /* - " - POS_104 */
-#define CSS CS(0x1a) /* - " - POS_105 */
-#define CSP_06 CS(0x1c) /* - " - POS_106 */
-#define WDOG_ST 0x1c /* Watchdog status (FM2 only) */
-#define WDOG_EN 0x1c /* Watchdog enabling (FM2 only, 8Bit) */
-#define WDOG_DIS 0x1e /* Watchdog disabling (FM2 only, 8Bit) */
-
-#define PGRA CSM /* Flash page register */
-
-
-#define WCTA FF(0) /* word counter */
-#define FFLAG FF(1) /* FLAG/V_FULL (FIFO almost full, write only)*/
-
-/*
- * Timer register (FM2 only)
- */
-#define RTM_CNT 0x28 /* RTM Counter */
-#define TI_DIV 0x60 /* Timer Prescaler */
-#define TI_CH1 0x62 /* Timer channel 1 counter */
-#define TI_STOP 0x64 /* Stop timer on channel 1 */
-#define TI_STRT 0x66 /* Start timer on channel 1 */
-#define TI_INI2 0x68 /* Timer: Bus master preemption */
-#define TI_CNT2 0x6a /* Timer */
-#define TI_INI3 0x6c /* Timer: Streaming data */
-#define TI_CNT3 0x6e /* Timer */
-#define WDOG_LO 0x70 /* Watchdog counter low */
-#define WDOG_HI 0x72 /* Watchdog counter high */
-#define RTM_PRE 0x74 /* restr. token prescaler */
-#define RTM_TIM 0x76 /* restr. token timer */
-
-/*
- * Recommended Timeout values (for FM2 timer only)
- */
-#define TOUT_BM_PRE 188 /* 3.76 usec */
-#define TOUT_S_DAT 374 /* 7.48 usec */
-
-/*
- * CS register (write only)
- */
-#define HSR(p) CS(0x18|(p)) /* Host request register */
-
-#define RTM_PUT 0x36 /* restr. token counter write */
-#define RTM_GET 0x28 /* - " - clear */
-#define RTM_CLEAR 0x34 /* - " - read */
-
-/*
- * BCN Bit definitions
- */
-#define BCN_BUSY 0x8000 /* DMA Busy flag */
-#define BCN_AZERO 0x4000 /* Almost zero flag (BCN < 4) */
-#define BCN_STREAM 0x2000 /* Allow streaming data (BCN >= 8) */
-
-/*
- * WCN Bit definitions
- */
-#define WCN_ZERO 0x2000 /* Zero flag (counted to zero) */
-#define WCN_AZERO 0x1000 /* Almost zero flag (BCN < 4) */
-
-/*
- * CNT_TST Bit definitions
- */
-#define CNT_MODE 0x01 /* Go into test mode */
-#define CNT_D32 0x02 /* 16/32 BIT test mode */
-
-/*
- * FIFO Flag FIFO Flags/Vfull register
- */
-#define FF_VFULL 0x003f /* V_full value mask */
-#define FFLG_FULL 0x2000 /* FULL flag */
-#define FFLG_A_FULL 0x1000 /* Almost full flag */
-#define FFLG_VFULL 0x0800 /* V_full Flag */
-#define FFLG_A_EMP 0x0400 /* almost empty flag */
-#define FFLG_EMP 0x0200 /* empty flag */
-#define FFLG_T_EMP 0x0100 /* totally empty flag */
-
-/*
- * WDOG Watchdog status register
- */
-#define WDOG_ALM 0x01 /* Watchdog alarm Bit */
-#define WDOG_ACT 0x02 /* Watchdog active Bit */
-
-/*
- * CS(0) CONTROLS
- */
-#define CS_CRESET 0x0001
-#define FIFO_RST 0x0002
-#define CS_IMSK 0x0004
-#define EN_IRQ_CHCK 0x0008
-#define EN_IRQ_TOKEN 0x0010
-#define EN_IRQ_TC 0x0020
-#define TOKEN_STATUS 0x0040
-#define RTM_CHANGE 0x0080
-
-#define CS_SAS 0x0100
-#define CS_BYSTAT 0x0200 /* bypass connected (0=conn.) */
-#define CS_BYPASS 0x0400 /* bypass on/off indication */
-
-/*
- * CS(2) FIFOSTAT
- */
-#define HSREQ 0x0007
-#define BIGDIR 0x0008
-#define CSF_BUSY_FIFO 0x0010
-#define CSF_BUSY_DMA 0x0020
-#define SLOT_32 0x0040
-
-#define LED_0 0x0001
-#define LED_1 0x0002
-#define LED_2 0x0100
-
-#define MAX_PAGES 8 /* pages */
-#define MAX_FADDR 0x4000 /* 16K per page */
-
-/*
- * IRQ = ISRA || ISR2 ;
- *
- * ISRA = IRQ_OTH_EN && (IS_LAN | IS_BUS) ;
- * ISR2 = IRQ_TC_EN && IS_TC ;
- *
- * IS_LAN = (IS_MINTR1 | IS_MINTR2 | IS_PLINT1 | IS_PLINT2 | IS_TIMINT) ||
- * (IRQ_EN_TOKEN && IS_TOKEN) ;
- * IS_BUS = IRQ_CHCK_EN && (IS_BUSERR | IS_CHCK_L) ;
- */
-/*
- * ISRA !!! activ high !!!
- */
-#define IS_MINTR1 0x0001 /* FORMAC ST1U/L & ~IMSK1U/L*/
-#define IS_MINTR2 0x0002 /* FORMAC ST2U/L & ~IMSK2U/L*/
-#define IS_PLINT1 0x0004 /* PLC1 */
-#define IS_PLINT2 0x0008 /* PLC2 */
-#define IS_TIMINT 0x0010 /* Timer 82C54-2 */
-#define IS_TOKEN 0x0020 /* restrictet token monitoring */
-#define IS_CHCK_L 0x0040 /* check line asserted */
-#define IS_BUSERR 0x0080 /* bus error */
-/*
- * ISR2
- */
-#define IS_TC 0x0001 /* terminal count irq */
-#define IS_SFDBKRTN 0x0002 /* selected feedback return */
-#define IS_D16 0x0004 /* DS16 */
-#define IS_D32 0x0008 /* DS32 */
-#define IS_DPEI 0x0010 /* Data Parity Indication */
-
-#define ALL_IRSR 0x00ff
-
-#define FM_A(a) ADDR(FMA(a)) /* FORMAC Plus physical addr */
-#define P1_A(a) ADDR(P1(a)) /* PLC1 (r/w) */
-#define P2_A(a) ADDR(P2(a)) /* PLC2 (r/w) (DAS) */
-#define TI_A(a) ADDR(TI(a)) /* Timer (r/w) FM1 only! */
-#define PR_A(a) ADDR(PR(a)) /* config. PROM */
-#define CS_A(a) ADDR(CS(a)) /* control/status */
-
-#define ISR1_A ADDR(ISRA) /* first int. source register address */
-#define ISR2_A ADDR(ISR2) /* second -"- */
-#define CSR_A ADDR(CSRA) /* control/status register address */
-#define CSF_A ADDR(CSFA) /* control/status FIFO BUSY flags (r/w) */
-
-#define CSIL_A ADDR(CSIL) /* I/O mapped POS_ID_low (102) */
-#define CSIH_A ADDR(CSIH) /* - " - POS_ID_HIGH (101) */
-#define CSA_A ADDR(CSA) /* - " - POS_102 */
-#define CSI_A ADDR(CSI) /* - " - POS_104 */
-#define CSM_A ADDR(CSM) /* - " - POS_103 */
-#define CSM_FM1_A ADDR(CSM_FM1) /* - " - POS_103 (2nd copy, FM1) */
-#define CSP_06_A ADDR(CSP_06) /* - " - POS_106 */
-
-#define WCT_A ADDR(WCTA) /* word counter (r/w) */
-#define FFLAG_A ADDR(FFLAG) /* FLAG/V_FULL (FIFO almost full, write only)*/
-
-#define ACL_A ADDR(ACLA) /* address counter low */
-#define ACH_A ADDR(ACHA) /* address counter high */
-#define BCN_A ADDR(BCN) /* byte counter */
-#define MUX_A ADDR(MUX) /* MUX-register */
-
-#define ISR_A ADDR(ISRA) /* Interrupt Source Register */
-#define FIFO_RESET_A ADDR(FIFO_RESET) /* reset the FIFO */
-#define FIFO_EN_A ADDR(FIFO_EN) /* enable the FIFO */
-
-#define WDOG_EN_A ADDR(WDOG_EN) /* reset and start the WDOG */
-#define WDOG_DIS_A ADDR(WDOG_DIS) /* disable the WDOG */
-/*
- * all control reg. (read!) are 8 bit (except PAGE_RG_A and LEDR_A)
- */
-#define HSR_A(p) ADDR(HSR(p)) /* Host request register */
-
-#define STAT_BYP 0 /* bypass station */
-#define STAT_INS 2 /* insert station */
-#define BYPASS(o) CS(0x10|(o)) /* o=STAT_BYP || STAT_INS */
-
-#define IRQ_TC_EN CS(0x0b) /* enable/disable IRQ on TC */
-#define IRQ_TC_DIS CS(0x0a)
-#define IRQ_TOKEN_EN CS(9) /* enable/disable IRQ on restr. Token */
-#define IRQ_TOKEN_DIS CS(8)
-#define IRQ_CHCK_EN CS(7) /* -"- IRQ after CHCK line */
-#define IRQ_CHCK_DIS CS(6)
-#define IRQ_OTH_EN CS(5) /* -"- other IRQ's */
-#define IRQ_OTH_DIS CS(4)
-#define FIFO_EN CS(3) /* disable (reset), enable FIFO */
-#define FIFO_RESET CS(2)
-#define CARD_EN CS(1) /* disable (reset), enable card */
-#define CARD_DIS CS(0)
-
-#define LEDR_A ADDR(LEDR) /* D0=green, D1=yellow, D8=L2 */
-#define PAGE_RG_A ADDR(CSM) /* D<2..0> */
-#define IRQ_CHCK_EN_A ADDR(IRQ_CHCK_EN)
-#define IRQ_CHCK_DIS_A ADDR(IRQ_CHCK_DIS)
-
-#define GET_PAGE(bank) outpw(PAGE_RG_A,(inpw(PAGE_RG_A) &\
- (~POS_PAGE)) |(int) (bank))
-#define VPP_ON() if (smc->hw.rev == FM1_REV) { \
- outpw(PAGE_RG_A, \
- (inpw(PAGE_RG_A) & POS_PAGE) | PROG_EN); \
- }
-#define VPP_OFF() if (smc->hw.rev == FM1_REV) { \
- outpw(PAGE_RG_A,(inpw(PAGE_RG_A) & POS_PAGE)); \
- }
-
-#define SKFDDI_PSZ 16 /* address PROM size */
-
-#define READ_PROM(a) ((u_char)inp(a))
-
-#define GET_ISR() ~inpw(ISR1_A)
-#ifndef TCI
-#define CHECK_ISR() ~inpw(ISR1_A)
-#define CHECK_ISR_SMP(iop) ~inpw((iop)+ISRA)
-#else
-#define CHECK_ISR() (~inpw(ISR1_A) | ~inpw(ISR2_A))
-#define CHECK_ISR_SMP(iop) (~inpw((iop)+ISRA) | ~inpw((iop)+ISR2))
-#endif
-
-#define DMA_BUSY() (inpw(CSF_A) & CSF_BUSY_DMA)
-#define FIFO_BUSY() (inpw(CSF_A) & CSF_BUSY_FIFO)
-#define DMA_FIFO_BUSY() (inpw(CSF_A) & (CSF_BUSY_DMA | CSF_BUSY_FIFO))
-#define BUS_CHECK() { int i ; \
- if ((i = GET_ISR()) & IS_BUSERR) \
- SMT_PANIC(smc,HWM_E0020,HWM_E0020_MSG) ; \
- if (i & IS_CHCK_L) \
- SMT_PANIC(smc,HWM_E0014,HWM_E0014_MSG) ; \
- }
-
-#define CHECK_DMA() { u_long k = 10000 ; \
- while (k && (DMA_BUSY())) { \
- k-- ; \
- BUS_CHECK() ; \
- } \
- if (!k) SMT_PANIC(smc,HWM_E0003,HWM_E0003_MSG) ; }
-
-#define CHECK_FIFO() {u_long k = 1000000 ;\
- while (k && (FIFO_BUSY())) k-- ;\
- if (!k) SMT_PANIC(smc,HWM_E0019,HWM_E0019_MSG) ; }
-
-#define CHECK_DMA_FIFO() {u_long k = 1000000 ;\
- while (k && (DMA_FIFO_BUSY())) { \
- k-- ;\
- BUS_CHECK() ; \
- } \
- if (!k) SMT_PANIC(smc,HWM_E0004,HWM_E0004_MSG) ; }
-
-#ifndef UNIX
-#define CLI_FBI() outp(ADDR(IRQ_OTH_DIS),0)
-#else
-#define CLI_FBI(smc) outp(ADDRS((smc),IRQ_OTH_DIS),0)
-#endif
-
-#ifndef TCI
-#define CLI_FBI_SMP(iop) outp((iop)+IRQ_OTH_DIS,0)
-#else
-#define CLI_FBI_SMP(iop) outp((iop)+IRQ_OTH_DIS,0) ;\
- outp((iop)+IRQ_TC_DIS,0)
-#endif
-
-#ifndef UNIX
-#define STI_FBI() outp(ADDR(IRQ_OTH_EN),0)
-#else
-#define STI_FBI(smc) outp(ADDRS((smc),IRQ_OTH_EN),0)
-#endif
-
-/*
- * Terminal count primitives
- */
-#define CLI_TCI(smc) outp(ADDRS((smc),IRQ_TC_DIS),0)
-#define STI_TCI(smc) outp(ADDRS((smc),IRQ_TC_EN),0)
-#define CHECK_TC(smc,k) {(k) = 10000 ;\
- while ((k) && (~inpw(ISR2_A) & IS_TC)) (k)-- ;\
- if (!k) SMT_PANIC(smc,HWM_E0018,HWM_E0018_MSG) ; }
-
-#endif /* MCA */
-
-#ifdef ISA
-
-/*
- * address transmission from logic NPADDR6-0 to physical offset address on board
- */
-#define FMA(a) (0x8000|(((a)&0x07)<<1)|(((a)&0x78)<<7)) /* FORMAC+ (r/w) */
-#define PRA(a) (0x1000|(((a)&0x07)<<1)|(((a)&0x18)<<7)) /* PROM (read only)*/
-#define P1A(a) (0x4000|(((a)&0x07)<<1)|(((a)&0x18)<<7)) /* PLC1 (r/w) */
-#define P2A(a) (0x5000|(((a)&0x07)<<1)|(((a)&0x18)<<7)) /* PLC2 (r/w) */
-#define TIA(a) (0x6000|(((a)&0x03)<<1)) /* Timer (r/w) */
-
-#define ISRA 0x0000 /* int. source register address (read only) */
-#define ACLA 0x0000 /* address counter low address (write only) */
-#define ACHA 0x0002 /* address counter high address (write only) */
-#define TRCA 0x0004 /* transfer counter address (write only) */
-#define PGRA 0x0006 /* page register address (write only) */
-#define RQAA 0x2000 /* Request reg. (write only) */
-#define CSRA 0x3000 /* control/status register address (r/w) */
-
-/*
- * physical address offset + IO-Port base address
- */
-#define FM_A(a) (FMA(a)+smc->hw.iop) /* FORMAC Plus physical addr */
-#define PR_A(a) (PRA(a)+smc->hw.iop) /* PROM (read only)*/
-#define P1_A(a) (P1A(a)+smc->hw.iop) /* PLC1 (r/w) */
-#define P2_A(a) (P2A(a)+smc->hw.iop) /* PLC2 (r/w) */
-#define TI_A(a) (TIA(a)+smc->hw.iop) /* Timer (r/w) */
-
-#define ISR_A (0x0000+smc->hw.iop) /* int. source register address (read only) */
-#define ACL_A (0x0000+smc->hw.iop) /* address counter low address (write only) */
-#define ACH_A (0x0002+smc->hw.iop) /* address counter high address (write only)*/
-#define TRC_A (0x0004+smc->hw.iop) /* transfer counter address (write only) */
-#define PGR_A (0x0006+smc->hw.iop) /* page register address (write only) */
-#define RQA_A (0x2000+smc->hw.iop) /* Request reg. (write only) */
-#define CSR_A (0x3000+smc->hw.iop) /* control/status register address (r/w) */
-#ifdef UNIX
-#define CSR_AS(smc) (0x3000+(smc)->hw.iop) /* control/status register address */
-#endif
-#define PLC1_I (0x3400+smc->hw.iop) /* clear PLC1 interrupt bit */
-#define PLC2_I (0x3800+smc->hw.iop) /* clear PLC2 interrupt bit */
-
-#ifndef MULT_OEM
-#ifndef OEM_CONCEPT
-#define SKLOGO_STR "SKFDDI"
-#else /* OEM_CONCEPT */
-#define SKLOGO_STR OEM_FDDI_LOGO
-#endif /* OEM_CONCEPT */
-#endif /* MULT_OEM */
-#define SADDRL (24) /* start address SKLOGO */
-#define SA_MAC (0) /* start addr. MAC_AD within the PROM */
-#define PRA_OFF (0)
-#define SA_PMD_TYPE (8) /* start addr. PMD-Type */
-
-#define CDID (PRA(SADDRL)) /* Card ID int/O port addr. offset */
-#define NEXT_CDID ((PRA(SADDRL+1)) - CDID)
-
-#define SKFDDI_PSZ 32 /* address PROM size */
-
-#define READ_PROM(a) ((u_char)inpw(a))
-#define GET_PAGE(i) outpw(PGR_A,(int)(i))
-
-#define MAX_PAGES 16 /* 16 pages */
-#define MAX_FADDR 0x2000 /* 8K per page */
-#define VPP_OFF() outpw(CSR_A,(inpw(CSR_A) & (CS_CRESET|CS_BYPASS)))
-#define VPP_ON() outpw(CSR_A,(inpw(CSR_A) & (CS_CRESET|CS_BYPASS)) | \
- CS_VPPSW)
-
-/*
- * control/status register CSRA bits (log. addr: 0x3000)
- */
-/* write */
-#define CS_CRESET 0x01 /* Card reset (0=reset) */
-#define CS_IMSK 0x02 /* enable IRQ (1=enable, 0=disable) */
-#define CS_RESINT1 0x04 /* PLINT1 reset */
-#define CS_VPPSW 0x10 /* 12V power switch (0=off, 1=on) */
-#define CS_BYPASS 0x20 /* bypass switch (0=remove, 1=insert)*/
-#define CS_RESINT2 0x40 /* PLINT2 reset */
-/* read */
-#define CS_BUSY 0x04 /* master transfer activ (=1) */
-#define CS_SW_EPROM 0x08 /* 0=Application Soft. 1=BOOT-EPROM */
-#define CS_BYSTAT 0x40 /* 0=Bypass exist, 1= ..not */
-#define CS_SAS 0x80 /* single attachement station (=1) */
-
-/*
- * Interrupt source register ISRA (log. addr: 0x0000) read only & low activ.
- */
-#define IS_MINTR1 0x01 /* FORMAC ST1U/L && ~IMSK1U/L*/
-#define IS_MINTR2 0x02 /* FORMAC ST2U/L && ~IMSK2U/L*/
-#define IS_PLINT1 0x04 /* PLC1 */
-#define IS_PLINT2 0x08 /* PLC2 */
-#define IS_TIMINT 0x10 /* Timer 82C54-2 */
-
-#define ALL_IRSR (IS_MINTR1|IS_MINTR2|IS_PLINT1|IS_PLINT2|IS_TIMINT)
-
-#define FPROM_SW() (inpw(CSR_A)&CS_SW_EPROM)
-#define DMA_BUSY() (inpw(CSR_A)&CS_BUSY)
-#define CHECK_FIFO()
-#define BUS_CHECK()
-
-/*
- * set Host Request register (wr.)
- */
-#define SET_HRQ(qup) outpw(RQA_A+((qup)<<1),0)
-
-#ifndef UNIX
-#ifndef WINNT
-#define CLI_FBI() outpw(CSR_A,(inpw(CSR_A)&(CS_CRESET|CS_BYPASS|CS_VPPSW)))
-#else
-#define CLI_FBI() outpw(CSR_A,(l_inpw(CSR_A) & \
- (CS_CRESET|CS_BYPASS|CS_VPPSW)))
-#endif
-#else
-#define CLI_FBI(smc) outpw(CSR_AS(smc),(inpw(CSR_AS(smc))& \
- (CS_CRESET|CS_BYPASS|CS_VPPSW)))
-#endif
-
-#ifndef UNIX
-#define STI_FBI() outpw(CSR_A,(inpw(CSR_A) & \
- (CS_CRESET|CS_BYPASS|CS_VPPSW)) | CS_IMSK)
-#else
-#define STI_FBI(smc) outpw(CSR_AS(smc),(inpw(CSR_AS(smc)) & \
- (CS_CRESET|CS_BYPASS|CS_VPPSW)) | CS_IMSK)
-#endif
-
-#define CHECK_DMA() {unsigned k = 10000 ;\
- while (k && (DMA_BUSY())) k-- ;\
- if (!k) SMT_PANIC(smc,HWM_E0003,HWM_E0003_MSG) ; }
-
-#define GET_ISR() ~inpw(ISR_A)
-
-#endif /* ISA */
-
/*--------------------------------------------------------------------------*/
#ifdef PCI