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freebsd/sys/dev/hea/eni_receive.c
Poul-Henning Kamp 1820df7a2d Add new files for HARP3
Host ATM Research Platform (HARP), Network Computing Services, Inc.
This software was developed with the support of the Defense Advanced
Research Projects Agency (DARPA).
1998-09-15 08:23:17 +00:00

872 lines
21 KiB
C

/*
*
* ===================================
* HARP | Host ATM Research Platform
* ===================================
*
*
* This Host ATM Research Platform ("HARP") file (the "Software") is
* made available by Network Computing Services, Inc. ("NetworkCS")
* "AS IS". NetworkCS does not provide maintenance, improvements or
* support of any kind.
*
* NETWORKCS MAKES NO WARRANTIES OR REPRESENTATIONS, EXPRESS OR IMPLIED,
* INCLUDING, BUT NOT LIMITED TO, IMPLIED WARRANTIES OF MERCHANTABILITY
* AND FITNESS FOR A PARTICULAR PURPOSE, AS TO ANY ELEMENT OF THE
* SOFTWARE OR ANY SUPPORT PROVIDED IN CONNECTION WITH THIS SOFTWARE.
* In no event shall NetworkCS be responsible for any damages, including
* but not limited to consequential damages, arising from or relating to
* any use of the Software or related support.
*
* Copyright 1994-1998 Network Computing Services, Inc.
*
* Copies of this Software may be made, however, the above copyright
* notice must be reproduced on all copies.
*
* @(#) $Id: eni_receive.c,v 1.13 1998/08/07 22:14:13 mks Exp $
*
*/
/*
* Efficient ENI Adapter Support
* -----------------------------
*
* Receive management
*
*/
#ifndef lint
static char *RCSid = "@(#) $Id: eni_receive.c,v 1.13 1998/08/07 22:14:13 mks Exp $";
#endif
#include <netatm/kern_include.h>
#include <dev/hea/eni_stats.h>
#include <dev/hea/eni.h>
#include <dev/hea/eni_var.h>
static void eni_recv_stack __P((void *, KBuffer *));
#ifdef DIAGNOSTIC
extern int eni_pdu_print;
#endif
/*
* Procedure to remove VCs from the Service List and generate DMA
* requests to move the associated PDUs into host memory. As PDUs
* are completed in adapter memory, the adapter examines the IN_SERVICE
* bit for the VC in the VC table. If this bit is not set, the adapter
* will place the VC number at the end of the service list queue, set
* the IN_SERVICE bit in the VC table, and interrupt the host. The host
* will remove VCs from the service list, clear the IN_SERVICE bit in
* the VC table, and create a DMA list to move the PDU into host buffers.
*
* Arguments:
* eup pointer to per unit structure
*
* Returns:
* none
*
*/
void
eni_do_service ( eup )
Eni_unit *eup;
{
int vcc;
Eni_vcc *evp;
u_long servwrite;
VCI_Table *vct;
u_long rdptr;
u_long *rxp;
KBuffer *m;
u_long dma[TEMP_DMA_SIZE];
u_long i, j;
u_long dma_rd, dma_wr;
u_long dma_avail;
int pdulen;
int mask;
u_long *upp;
/*
* Where is the adapter currently inserting entries?
*/
servwrite = eup->eu_midway[MIDWAY_SVCWR] & SVC_SIZE_MASK;
/*
* As long as we're not caught up with the adapter, keep
* removing VCs from the service list.
*/
while ( servwrite != eup->eu_servread ) {
int vci_hdr;
u_long descr;
/*
* Get VC number and find VC table entry.
*/
vcc = eup->eu_svclist[eup->eu_servread];
vct = &eup->eu_vcitbl[vcc];
vci_hdr = vct->vci_control; /* Current status */
/*
* Check that this VCC still needs servicing. We
* might have closed this VCC down in between
* the adapter setting the flag and our checking
* the flag. Also check that we haven't placed the
* VCC into TRASH mode.
*/
if ( ( vci_hdr & VCI_IN_SERVICE ) == 0 ||
( vci_hdr & ~VCI_MODE_MASK ==
VCI_MODE_TRASH << VCI_MODE_SHIFT ) )
goto next_vcc;
/*
* Find the size of this VCs buffer
*/
mask = (vci_hdr >> VCI_SIZE_SHIFT) & VCI_SIZE_MASK;
mask = 1 << (ENI_LOC_PREDIV + mask);
/* Turn byte count into word count */
mask >>= 2;
/*
* Find the start of the adapter buffer for this VC.
*/
rxp = (u_long *)
((int)(((vci_hdr >> VCI_LOC_SHIFT ) & VCI_LOC_MASK)
<< ENI_LOC_PREDIV) + (int)eup->eu_ram);
/*
* Locate incoming VCC for this PDU and find where we
* should next read from.
*/
evp = (Eni_vcc *) atm_dev_vcc_find ( (Cmn_unit *)eup,
0, vcc, VCC_IN );
if ( evp == (Eni_vcc *)NULL )
goto next_vcc; /* VCI no longer active */
rdptr = evp->ev_rxpos;
/*
* Find out where the adapter is currently reassembling.
* The PDU which starts at descr is not yet complete so we
* must stop there.
*/
descr = ( vct->vci_descr >> 16 ) & 0x7FFF;
/*
* As long as we haven't processed all the completed PDUs on
* this VC, keep going...
*/
while ( rdptr != descr )
{
int n_cells;
int pdu_descr;
int aal5;
/*
* Ensure that the following are reset for every new
* PDU.
*/
upp = NULL;
m = NULL;
/*
* Fisrt build a DMA with JK to skip the descriptor word.
* We must always skip the descriptor even if it turns out
* that there isn't any PDU here.
*/
j = 0;
dma[j++] = (((rdptr + 1) & (mask-1)) << DMA_COUNT_SHIFT ) |
( vcc << DMA_VCC_SHIFT ) | DMA_JK;
dma[j++] = 0;
/*
* We'll use some of the values below for skipping
* bad PDUs or counting statistics so compute them
* now.
*/
/*
* Grab a copy of the descriptor word
*/
pdu_descr = rxp[rdptr];
/*
* Strip out cell count from descriptor word.
* At this point, we still don't know if there
* is any real data until after we check for
* TRASH mode.
*/
n_cells = pdu_descr & DESCR_CELL_COUNT;
/*
* Is this an AAL5 PDU? Check MODE in vci_hdr.
*/
aal5 = ( ( vci_hdr & ~VCI_MODE_MASK ) ==
VCI_MODE_AAL5 << VCI_MODE_SHIFT );
/*
* Now check to see if we're trashing on this vcc.
* If so, there is no data with this VC and the
* next word after the current descriptor is the
* descriptor for the next PDU.
*/
if ( ( pdu_descr & DESCR_TRASH_BIT ) != 0 ) {
if ( aal5 )
/*
* Count as number of AAL5 cells dropped
*/
eup->eu_stats.eni_st_aal5.aal5_drops += n_cells;
else
/*
* Count as number of AAL0 cells dropped
*/
eup->eu_stats.eni_st_aal0.aal0_drops += n_cells;
eup->eu_pif.pif_ierrors++;
/*
* When cells have been trashed, all we have in the
* buffer is a descriptor word. There are no data
* words. Set the number of cells to zero so that
* we correctly skip to the next word which will
* be the descriptor for the next PDU.
*/
n_cells = 0;
/*
* Go issue the DMA to skip this descriptor word.
*/
goto send_dma;
}
/*
* Data length: number of cells * cell size
*/
pdulen = n_cells * BYTES_PER_CELL;
/*
* If this is an AAL5 PDU, then we need to check
* for the presence of any CRC errors. If there
* is one or more CRC errors, then we are going to
* drop this PDU.
*/
if ( aal5 && ( pdu_descr & DESCR_CRC_ERR ) ) {
/*
* Count the stat
*/
eup->eu_pif.pif_ierrors++;
eup->eu_stats.eni_st_aal5.aal5_pdu_crc++;
if ( evp->ev_connvc->cvc_vcc )
evp->ev_connvc->cvc_vcc->vc_ierrors++;
/*
* Build a DMA entry to skip the rest of this
* PDU.
*/
dma[j++] =
(((rdptr + n_cells*WORDS_PER_CELL + 1)
& (mask-1)) << DMA_COUNT_SHIFT ) |
(vcc << DMA_VCC_SHIFT ) | DMA_JK;
dma[j++] = 0;
/*
* All done with this PDU. Get a buffer to save some
* data for reclamation services.
*/
KB_ALLOCPKT ( m, ENI_SMALL_BSIZE, KB_F_NOWAIT,
KB_T_DATA );
if ( m ) {
u_long *up;
KB_DATASTART ( m, up, u_long * );
/*
* Indicate no PDU
*/
KB_PLENSET ( m, 0 );
/*
* Set buffer length - only driver overhead
*/
KB_LEN ( m ) = 3 * sizeof ( u_long );
/*
* Insert vcc, space for DMA pointers,
* and pdulen
*/
*up++ = vcc;
upp = up; /* Remember location */
up++; /* And skip it */
/* - to be filled later */
*up = pdulen; /* Actual PDU length if it */
/* were valid */
} else {
/*
* We've a real problem here as now we can't
* reclaim/advance resources/safety pointers.
*/
eup->eu_stats.eni_st_drv.drv_rv_norsc++;
#ifdef DO_LOG
log ( LOG_ERR,
"eni_do_service: No drain buffers available. Receiver about to lock.\n" );
#endif
}
goto send_dma;
}
/*
* Do we need to strip the AAL layer? Yes if this
* is an AAL5 PDU.
*/
if ( aal5 ) {
/*
* Grab the CS-PDU length. Find the address of the
* last word, back up one word to skip CRC, and
* then mask the whole thing to handle circular wraps.
*/
pdulen = rxp[(rdptr + n_cells*WORDS_PER_CELL - 1)
& (mask-1)]
& 0xFFFF;
}
/*
* We now have a valid PDU of some length. Build
* the necessary DMA list to move it into host
* memory.
*/
/*
* Get an initial buffer.
*/
KB_ALLOCPKT ( m, ENI_SMALL_BSIZE, KB_F_NOWAIT, KB_T_DATA );
/*
* Do we have a valid buffer?
*/
if ( m != (KBuffer *)NULL )
{
int len;
u_long *up;
KBuffer *m0;
KB_DATASTART ( m, up, u_long * );
/*
* Fill in pdulen in PKTHDR structure (for IP).
*/
KB_PLENSET ( m, pdulen );
/*
* We're going to save the VCI nuber, the start
* and stop DMA pointers, and the PDU length at
* the head of the buffer. We'll pull this out
* later after the DMA has completed.
*
* Insert VCI number as first word in first buffer,
* remeber where we want to store the start/stop
* pointers, and store the PDU length.
*/
*up++ = vcc; /* PDU's VCC */
upp = up; /* Remember where we are */
up++; /* To stuff start/stop pointers in */
*up++ = pdulen; /* PDU's length */
/*
* Leave some extra room in case a higher protocol
* (IP) wants to do a pullup. Maybe we can keep
* someone from having to allocate another buffer
* a do a larger memory copy.
*/
len = MIN ( ENI_SMALL_BSIZE, pdulen );
(void) eni_set_dma ( eup, 1, dma, TEMP_DMA_SIZE, &j,
vcc, (u_long)up, len );
/*
* Adjust length of remaining data in PDU
*/
pdulen -= len;
/*
* Set buffer length, including our overhead
*/
KB_LEN ( m ) = len + 3 * sizeof ( u_long );
/*
* Finish by moving anything which won't fit in
* first buffer
*/
m0 = m;
while ( pdulen ) {
KBuffer *m1;
u_long data_addr;
/*
* Get another buffer
*/
KB_ALLOCEXT ( m1, ENI_LARGE_BSIZE, KB_F_NOWAIT,
KB_T_DATA );
/*
* If we succeeded...
*/
if ( m1 ) {
/*
* Figure out how much we can move into
* this buffer.
*/
len = MIN ( ENI_LARGE_BSIZE, pdulen );
/*
* Setup DMA list for this buffer
*/
KB_DATASTART ( m1, data_addr, u_long );
(void) eni_set_dma
( eup, 1, dma, TEMP_DMA_SIZE, &j, vcc,
data_addr, len );
/*
* Adjust remaining length
*/
pdulen -= len;
/*
* Set buffer length
*/
KB_LEN ( m1 ) = len;
/*
* Link new buffer onto end and advance
* pointer
*/
KB_NEXT ( m0 ) = m1;
m0 = m1;
} else {
/*
* Either we were unable to grab another
* buffer or there are no large buffers
* available. We know that the first
* buffer is valid, so drop everything
* else, build a JK DMA to skip/drop this
* PDU, set the pointers to reclaim
* resources/advance pointers, and
* finish this PDU now.
*/
if ( KB_NEXT ( m ) )
KB_FREEALL ( KB_NEXT ( m ) );
eup->eu_pif.pif_ierrors++;
j = 2;
dma[j++] =
(((rdptr + n_cells*WORDS_PER_CELL + 1)
& (mask-1)) << DMA_COUNT_SHIFT ) |
(vcc << DMA_VCC_SHIFT ) |
DMA_JK;
dma[j++] = 0;
/*
* Reset PDU length to zero
*/
KB_PLENSET ( m, 0 );
/*
* Count some statistics
*/
/*
* Count this as dropped cells
*/
if ( aal5 ) {
eup->eu_stats.eni_st_aal5.aal5_drops +=
n_cells;
eup->eu_stats.eni_st_aal5.aal5_pdu_drops++;
} else
eup->eu_stats.eni_st_aal0.aal0_drops +=
n_cells;
/*
* Drop it
*/
goto send_dma;
}
}
/*
* If necessary, skip AAL layer
*/
if ( aal5 ) {
dma[j++] =
(((rdptr + n_cells*WORDS_PER_CELL + 1)
& (mask-1)) << DMA_COUNT_SHIFT)
| (vcc << DMA_VCC_SHIFT) | DMA_JK;
dma[j++] = 0;
}
} else {
/*
* We failed to get an initial buffer. Since we
* haven't changed anything for this PDU yet and the
* PDU is still valid, exit now and try to service it
* next time around. We're not very likely to get
* another buffer right now anyways.
*/
eup->eu_stats.eni_st_drv.drv_rv_nobufs++;
#ifdef DO_LOG
log ( LOG_ERR,
"eni_do_service: No buffers available. Exiting without servicing service list.\n" );
#endif
/*
* Clear the IN_SERVICE indicator for this VCC
*/
vct->vci_control &= ~VCI_IN_SERVICE;
return;
}
send_dma:
/*
* Set the end bit on the last DMA for this PDU
*/
dma[j-2] |= DMA_END_BIT;
/*
* Where are the current DMA pointers
*/
dma_rd = eup->eu_midway[MIDWAY_RX_RD];
dma_wr = eup->eu_midway[MIDWAY_RX_WR];
/*
* Check how much space is available
*/
if ( dma_rd == dma_wr )
dma_avail = DMA_LIST_SIZE;
else
dma_avail = ( dma_rd + DMA_LIST_SIZE - dma_wr )
& (DMA_LIST_SIZE-1);
/*
* Check for queue full or wrap past write okay pointer
*/
if ( dma_avail < j ||
( dma_wr + j > eup->eu_rxdmawr + DMA_LIST_SIZE ) ) {
/*
* There's no room in the DMA list to insert
* this request. Since we haven't changed anything
* yet and the PDU is good, exit now and service
* it next time around. What we really need to do
* is wait for the RX list to drain and that won't
* happen if we keep trying to process PDUs here.
*/
eup->eu_stats.eni_st_drv.drv_rv_nodma++;
#ifdef DO_LOG
log ( LOG_ERR,
"eni_do_service: No room in receive DMA list. Postponing service request.\n" );
#endif
/*
* Free the local buffer chain
*/
KB_FREEALL ( m );
/*
* Clear the IN_SERVICE indicator for this VCC.
*/
vct->vci_control &= ~VCI_IN_SERVICE;
return;
}
/*
* If we have a buffer chain, save the starting
* dma_list location.
*/
if ( upp ) {
*upp = dma_wr << 16;
}
/*
* Stuff the DMA list
*/
j >>= 1;
for ( i = 0; i < j; i++ ) {
eup->eu_rxdma[dma_wr*2] = dma[i*2];
eup->eu_rxdma[dma_wr*2+1] = dma[i*2+1];
dma_wr = (dma_wr+1) & (DMA_LIST_SIZE-1);
}
/*
* If we have a buffer chain, save the location of
* the ending dma_list location and queue the chain
* so that we can recover the resources later.
*/
if ( upp ) {
*upp |= dma_wr;
/*
* Place buffer on receive queue waiting for RX_DMA
*/
if ( IF_QFULL ( &eup->eu_rxqueue ) ) {
/*
* We haven't done anything we can't back out
* of. Drop request and service it next time.
* We've inserted the DMA list but it's not
* valid until we advance the RX_WR pointer,
* thus it's okay to bail here...
*/
eup->eu_stats.eni_st_drv.drv_rv_rxq++;
#ifdef DO_LOG
log ( LOG_ERR,
"eni_do_service: RX drain queue full. Postponing servicing.\n" );
#endif
KB_FREEALL ( m );
/*
* Clear the IN_SERVICE indicator for this VCC.
*/
vct->vci_control &= ~VCI_IN_SERVICE;
return;
} else {
IF_ENQUEUE ( &eup->eu_rxqueue, m );
/*
* Advance the RX_WR pointer to cause
* the adapter to work on this DMA list.
*/
eup->eu_midway[MIDWAY_RX_WR] = dma_wr;
}
}
/*
* Advance our notion of where the next PDU
* should start.
*/
rdptr = (rdptr + n_cells*WORDS_PER_CELL + 1)
& (mask-1);
evp->ev_rxpos = rdptr;
/*
* Increment cells/pdu received stats.
*/
eup->eu_stats.eni_st_atm.atm_rcvd += n_cells;
if ( aal5 ) {
eup->eu_stats.eni_st_aal5.aal5_rcvd += n_cells;
eup->eu_stats.eni_st_aal5.aal5_pdu_rcvd++;
} else {
eup->eu_stats.eni_st_aal0.aal0_rcvd += n_cells;
}
/*
* Continue processing PDUs on this same VCI
*/
}
next_vcc:
/*
* Advance to next entry in the service_list.
*/
eup->eu_servread = (eup->eu_servread + 1) & SVC_SIZE_MASK;
/*
* And clear the IN_SERVICE indicator for this VCC.
*/
vct->vci_control &= ~VCI_IN_SERVICE;
}
return;
}
/*
* Drain Receive queue
*
* As we build DMA lists to move PDUs from adapter buffers into host
* buffers, we place the request on a private ifqueue so that we can
* free any resources AFTER we know they've been successfully DMAed.
* As part of the service processing, we record the PDUs start and stop
* entries in the DMA list, and prevent wrapping. When we pull the top
* entry off, we simply check that the current DMA location is outside
* this PDU and if so, it's okay to free things.
*
* Arguments:
* eup pointer to device unit structure
*
* Returns:
* none
*
*/
void
eni_recv_drain ( eup )
Eni_unit *eup;
{
KBuffer *m;
Eni_vcc *evp;
struct vccb *vcp;
u_long vcc;
u_long DMA_Rdptr;
u_long dma_wrp;
u_long start, stop;
int que = 0;
int s;
s = splimp();
/* Pop first buffer */
IF_DEQUEUE ( &eup->eu_rxqueue, m );
while ( m ) {
u_long *up;
u_long pdulen;
KB_DATASTART ( m, up, u_long * );
/*
* Grab the VCI number
*/
vcc = *up++;
/*
* Check to see if we can process this buffer yet.
*/
/* Get current DMA_Rdptr */
DMA_Rdptr = eup->eu_midway[MIDWAY_RX_RD];
/* Boundaries for first buffer */
dma_wrp = *up++;
start = dma_wrp >> 16;
stop = dma_wrp & 0xffff;
/*
* Start should not equal stop because that would
* mean we tried inserting a NULL DMA list.
*/
if ( start > stop ) { /* We wrapped */
if ( !(DMA_Rdptr >= stop && DMA_Rdptr < start) ) {
IF_PREPEND ( &eup->eu_rxqueue, m );
goto finish;
}
} else {
if ( DMA_Rdptr < stop && DMA_Rdptr >= start ) {
IF_PREPEND ( &eup->eu_rxqueue, m );
goto finish;
}
}
/*
* Adapter is finished with this buffer, we can
* continue processing it now.
*/
/*
* Locate incoming VCC for this PDU
*/
evp = (Eni_vcc *) atm_dev_vcc_find ( (Cmn_unit *)eup,
0, vcc, VCC_IN );
if ( evp == NULL ) {
eup->eu_stats.eni_st_drv.drv_rv_novcc++;
KB_FREEALL ( m );
goto next_buffer;
}
#ifdef DIAGNOSTIC
if ( eni_pdu_print )
atm_dev_pdu_print ( (Cmn_unit *)eup, (Cmn_vcc *)evp, m,
"eni_stack_drain" );
#endif
/*
* Grab theoretical PDU length
*/
pdulen = *up++;
/*
* Quick, count the PDU
*/
eup->eu_pif.pif_ipdus++;
eup->eu_pif.pif_ibytes += pdulen;
if ( evp ) {
vcp = evp->ev_connvc->cvc_vcc;
if ( vcp ) {
vcp->vc_ipdus++;
vcp->vc_ibytes += pdulen;
if ( vcp->vc_nif ) {
vcp->vc_nif->nif_ibytes += pdulen;
vcp->vc_nif->nif_if.if_ipackets++;
#if (defined(BSD) && (BSD >= 199103))
vcp->vc_nif->nif_if.if_ibytes += pdulen;
#endif
}
}
}
/*
* Advance DMA write allowable pointer
*/
eup->eu_rxdmawr = stop;
/*
* Get packet PDU length
*/
KB_PLENGET ( m, pdulen );
/*
* Only try queueing this if there is data
* to be handed up to the next layer. Errors
* such as CRC and VC trashing will get us this
* far to advance pointers, etc., but the PDU
* length will be zero.
*/
if ( pdulen ) {
/*
* We saved three words back in eni_do_service()
* to use for callback. Since the core only
* expects two words, skip over the first one.
* Then, reset up pointer to start of buffer data
* area and write the callback info.
*/
KB_HEADADJ ( m, -sizeof(u_long) );
KB_DATASTART ( m, up, u_long * );
*((int *)up) = (int)eni_recv_stack;
up++;
*((int *)up) = (int)evp;
/*
* Schedule callback
*/
if ( !IF_QFULL ( &atm_intrq ) ) {
que++;
IF_ENQUEUE ( &atm_intrq, m );
} else {
eup->eu_stats.eni_st_drv.drv_rv_intrq++;
eup->eu_pif.pif_ierrors++;
#ifdef DO_LOG
log ( LOG_ERR,
"eni_receive_drain: ATM_INTRQ is full. Unable to pass up stack.\n" );
#endif
KB_FREEALL ( m );
}
} else {
/*
* Free zero-length buffer
*/
KB_FREEALL(m);
}
next_buffer:
/*
* Look for next buffer
*/
IF_DEQUEUE ( &eup->eu_rxqueue, m );
}
finish:
(void) splx(s);
/*
* If we found any completed buffers, schedule a call into
* the kernel to process the atm_intrq.
*/
if ( que )
SCHED_ATM;
return;
}
/*
* Pass incoming PDU up Stack
*
* This function is called via the core ATM interrupt queue callback
* set in eni_recv_drain(). It will pass the supplied incoming
* PDU up the incoming VCC's stack.
*
* Arguments:
* tok token to identify stack instantiation
* m pointer to incoming PDU buffer chain
*
* Returns:
* none
*/
static void
eni_recv_stack ( tok, m )
void *tok;
KBuffer *m;
{
Eni_vcc *evp = (Eni_vcc *)tok;
int err;
/*
* This should never happen now but if it does and we don't stop it,
* we end up panic'ing in netatm when trying to pull a function
* pointer and token value out of a buffer with address zero.
*/
if ( !m ) {
#ifdef DO_LOG
log ( LOG_ERR,
"eni_recv_stack: NULL buffer, tok = 0x%x\n", tok );
#endif
return;
}
/*
* Send the data up the stack
*/
STACK_CALL ( CPCS_UNITDATA_SIG, evp->ev_upper,
(void *)evp->ev_toku, evp->ev_connvc, (int)m, 0, err );
if ( err ) {
KB_FREEALL ( m );
}
return;
}