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|
/* $OpenBSD: cn30xxpow.c,v 1.2 2012/12/05 23:20:14 deraadt Exp $ */
/*
* Copyright (c) 2007 Internet Initiative Japan, Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/types.h>
#include <sys/kernel.h> /* hz */
#include <sys/malloc.h>
#include <sys/device.h> /* evcnt */
#include <sys/syslog.h> /* evcnt */
#include <machine/bus.h>
#include <machine/octeonvar.h>
#include <octeon/dev/iobusvar.h>
#include <octeon/dev/cn30xxciureg.h> /* XXX */
#include <octeon/dev/cn30xxpowreg.h>
#include <octeon/dev/cn30xxpowvar.h>
/* XXX ensure assertion */
#if !defined(DIAGNOSTIC)
#define DIAGNOSTIC
#endif
extern int ipflow_fastforward_disable_flags;
struct cn30xxpow_intr_handle {
void *pi_ih;
struct cn30xxpow_softc *pi_sc;
int pi_group;
void (*pi_cb)(void *, uint64_t *);
void *pi_data;
#ifdef OCTEON_ETH_DEBUG
#define _EV_PER_N 32 /* XXX */
#define _EV_IVAL_N 32 /* XXX */
int pi_first;
struct timeval pi_last;
struct evcnt pi_ev_per[_EV_PER_N];
struct evcnt pi_ev_ival[_EV_IVAL_N];
struct evcnt pi_ev_stray_tc;
struct evcnt pi_ev_stray_ds;
struct evcnt pi_ev_stray_iq;
#endif
};
void cn30xxpow_bootstrap(struct octeon_config *);
#ifdef OCTEON_ETH_DEBUG
void cn30xxpow_intr_evcnt_attach(struct cn30xxpow_softc *);
void cn30xxpow_intr_rml(void *);
static void cn30xxpow_intr_debug_init(
struct cn30xxpow_intr_handle *, int);
static void cn30xxpow_intr_work_debug_ival(struct cn30xxpow_softc *,
struct cn30xxpow_intr_handle *);
static void cn30xxpow_intr_work_debug_per(struct cn30xxpow_softc *,
struct cn30xxpow_intr_handle *, int);
#endif
static void cn30xxpow_init(struct cn30xxpow_softc *);
static void cn30xxpow_init_regs(struct cn30xxpow_softc *);
static int cn30xxpow_tag_sw_poll(void);
static void cn30xxpow_tag_sw_wait(void);
static void cn30xxpow_config_int_pc(struct cn30xxpow_softc *, int);
static void cn30xxpow_config_int(struct cn30xxpow_softc *, int,
uint64_t, uint64_t, uint64_t);
static void cn30xxpow_intr_work(struct cn30xxpow_softc *,
struct cn30xxpow_intr_handle *, int);
static int cn30xxpow_intr(void *);
#ifdef OCTEON_ETH_DEBUG
void cn30xxpow_dump(void);
#endif
/* XXX */
struct cn30xxpow_softc cn30xxpow_softc;
#ifdef OCTEON_ETH_DEBUG
struct cn30xxpow_softc *__cn30xxpow_softc;
#endif
/*
* XXX: parameter tuning is needed: see files.octeon
*/
#ifndef OCTEON_ETH_RING_MAX
#define OCTEON_ETH_RING_MAX 512
#endif
#ifndef OCTEON_ETH_RING_MIN
#define OCTEON_ETH_RING_MIN 1
#endif
#ifdef OCTEON_ETH_INTR_FEEDBACK_RING
int max_recv_cnt = OCTEON_ETH_RING_MAX;
int min_recv_cnt = OCTEON_ETH_RING_MIN;
int recv_cnt = OCTEON_ETH_RING_MIN;
int int_rate = 1;
#else
/* infinity */
int max_recv_cnt = 0;
int min_recv_cnt = 0;
int recv_cnt = 0;
#endif
/* -------------------------------------------------------------------------- */
/* ---- operation primitive functions */
/* 5.11.1 Load Operations */
/* 5.11.2 IOBDMA Operations */
/* 5.11.3 Store Operations */
/* -------------------------------------------------------------------------- */
/* ---- utility functions */
void
cn30xxpow_work_request_async(uint64_t scraddr, uint64_t wait)
{
cn30xxpow_ops_get_work_iobdma(scraddr, wait);
}
uint64_t *
cn30xxpow_work_response_async(uint64_t scraddr)
{
uint64_t result;
OCTEON_SYNCIOBDMA;
result = octeon_cvmseg_read_8(scraddr);
return (result & POW_IOBDMA_GET_WORK_RESULT_NO_WORK) ?
NULL :
(uint64_t *)PHYS_TO_CKSEG0(
result & POW_IOBDMA_GET_WORK_RESULT_ADDR);
}
/* ---- status by coreid */
static inline uint64_t
cn30xxpow_status_by_coreid_pend_tag(int coreid)
{
return cn30xxpow_ops_pow_status(coreid, 0, 0, 0);
}
static inline uint64_t
cn30xxpow_status_by_coreid_pend_wqp(int coreid)
{
return cn30xxpow_ops_pow_status(coreid, 0, 0, 1);
}
static inline uint64_t
cn30xxpow_status_by_coreid_cur_tag_next(int coreid)
{
return cn30xxpow_ops_pow_status(coreid, 0, 1, 0);
}
static inline uint64_t
cn30xxpow_status_by_coreid_cur_tag_prev(int coreid)
{
return cn30xxpow_ops_pow_status(coreid, 1, 1, 0);
}
static inline uint64_t
cn30xxpow_status_by_coreid_cur_wqp_next(int coreid)
{
return cn30xxpow_ops_pow_status(coreid, 0, 1, 1);
}
static inline uint64_t
cn30xxpow_status_by_coreid_cur_wqp_prev(int coreid)
{
return cn30xxpow_ops_pow_status(coreid, 1, 1, 1);
}
/* ---- status by index */
static inline uint64_t
cn30xxpow_status_by_index_tag(int index)
{
return cn30xxpow_ops_pow_memory(index, 0, 0);
}
static inline uint64_t
cn30xxpow_status_by_index_wqp(int index)
{
return cn30xxpow_ops_pow_memory(index, 0, 1);
}
static inline uint64_t
cn30xxpow_status_by_index_desched(int index)
{
return cn30xxpow_ops_pow_memory(index, 1, 0);
}
/* ---- status by qos level */
static inline uint64_t
cn30xxpow_status_by_qos_free_loc(int qos)
{
return cn30xxpow_ops_pow_idxptr(qos, 0, 0);
}
/* ---- status by desched group */
static inline uint64_t
cn30xxpow_status_by_grp_nosched_des(int grp)
{
return cn30xxpow_ops_pow_idxptr(grp, 0, 1);
}
/* ---- status by memory input queue */
static inline uint64_t
cn30xxpow_status_by_queue_remote_head(int queue)
{
return cn30xxpow_ops_pow_idxptr(queue, 1, 0);
}
static inline uint64_t
cn30xxpow_status_by_queue_remote_tail(int queue)
{
return cn30xxpow_ops_pow_idxptr(queue, 1, 0);
}
/* ---- tag switch */
/*
* "RDHWR rt, $30" returns:
* 0 => pending bit is set
* 1 => pending bit is clear
*/
/* return 1 if pending bit is clear (ready) */
static int
cn30xxpow_tag_sw_poll(void)
{
uint64_t result;
__asm __volatile (
" .set push \n"
" .set noreorder \n"
" .set arch=mips64r2 \n"
" rdhwr %[result], $30 \n"
" .set pop \n"
: [result]"=r"(result)
);
return (int)result;
}
static void
cn30xxpow_tag_sw_wait(void)
{
while (cn30xxpow_tag_sw_poll() == 0)
continue;
}
/* -------------------------------------------------------------------------- */
/* ---- initialization and configuration */
void
cn30xxpow_bootstrap(struct octeon_config *mcp)
{
struct cn30xxpow_softc *sc = &cn30xxpow_softc;
sc->sc_regt = mcp->mc_iobus_bust;
/* XXX */
cn30xxpow_init(sc);
#ifdef OCTEON_ETH_DEBUG
__cn30xxpow_softc = sc;
#endif
}
static void
cn30xxpow_config_int(struct cn30xxpow_softc *sc, int group,
uint64_t tc_thr, uint64_t ds_thr, uint64_t iq_thr)
{
uint64_t wq_int_thr;
wq_int_thr =
POW_WQ_INT_THRX_TC_EN |
(tc_thr << POW_WQ_INT_THRX_TC_THR_SHIFT) |
(ds_thr << POW_WQ_INT_THRX_DS_THR_SHIFT) |
(iq_thr << POW_WQ_INT_THRX_IQ_THR_SHIFT);
_POW_WR8(sc, POW_WQ_INT_THR0_OFFSET + (group * 8), wq_int_thr);
}
/*
* interrupt threshold configuration
*
* => DS / IQ
* => ...
* => time counter threshold
* => unit is 1msec
* => each group can set timeout
* => temporary disable bit
* => use CIU generic timer
*/
void
cn30xxpow_config(struct cn30xxpow_softc *sc, int group)
{
cn30xxpow_config_int(sc, group,
0x0f, /* TC */
0x00, /* DS */
0x00); /* IQ */
}
void *
cn30xxpow_intr_establish(int group, int level,
void (*cb)(void *, uint64_t *), void (*fcb)(int*, int *, uint64_t, void *),
void *data, char *what)
{
struct cn30xxpow_intr_handle *pow_ih;
KASSERT(group >= 0);
KASSERT(group < 16);
pow_ih = malloc(sizeof(*pow_ih), M_DEVBUF, M_NOWAIT);
KASSERT(pow_ih != NULL);
pow_ih->pi_ih = octeon_intr_establish(
ffs64(CIU_INTX_SUM0_WORKQ_0) - 1 + group,
level,
cn30xxpow_intr, pow_ih, what);
KASSERT(pow_ih->pi_ih != NULL);
pow_ih->pi_sc = &cn30xxpow_softc; /* XXX */
pow_ih->pi_group = group;
pow_ih->pi_cb = cb;
pow_ih->pi_data = data;
#ifdef OCTEON_ETH_DEBUG
cn30xxpow_intr_debug_init(pow_ih, group);
#endif
return pow_ih;
}
#ifdef OCTEON_ETH_DEBUG
#define _NAMELEN 8
#define _DESCRLEN 40
static void
cn30xxpow_intr_debug_init(struct cn30xxpow_intr_handle *pow_ih, int group)
{
pow_ih->pi_first = 1;
char *name, *descr;
int i;
name = malloc(_NAMELEN +
_DESCRLEN * nitems(pow_ih->pi_ev_per) +
_DESCRLEN * nitems(pow_ih->pi_ev_ival),
M_DEVBUF, M_NOWAIT);
descr = name + _NAMELEN;
snprintf(name, _NAMELEN, "pow%d", group);
for (i = 0; i < (int)nitems(pow_ih->pi_ev_per); i++) {
int n = 1 << (i - 1);
(void)snprintf(descr, _DESCRLEN,
"# of works per intr (%d-%d)",
(i == 0) ? 0 : n,
(i == 0) ? 0 : ((n << 1) - 1));
evcnt_attach_dynamic(&pow_ih->pi_ev_per[i],
EVCNT_TYPE_MISC, NULL, name, descr);
descr += _DESCRLEN;
}
for (i = 0; i < (int)nitems(pow_ih->pi_ev_ival); i++) {
int n = 1 << (i - 1);
int p, q;
char unit;
p = n;
q = (n << 1) - 1;
unit = 'u';
/*
* 0 is exceptional
*/
if (i == 0)
p = q = 0;
/*
* count 1024usec as 1msec
*
* XXX this is not exact
*/
if ((i - 1) >= 10) {
p /= 1000;
q /= 1000;
unit = 'm';
}
(void)snprintf(descr, _DESCRLEN, "intr interval (%d-%d%csec)",
p, q, unit);
evcnt_attach_dynamic(&pow_ih->pi_ev_ival[i],
EVCNT_TYPE_MISC, NULL, name, descr);
descr += _DESCRLEN;
}
evcnt_attach_dynamic(&pow_ih->pi_ev_stray_tc,
EVCNT_TYPE_MISC, NULL, name, "stray intr (TC)");
evcnt_attach_dynamic(&pow_ih->pi_ev_stray_ds,
EVCNT_TYPE_MISC, NULL, name, "stray intr (DS)");
evcnt_attach_dynamic(&pow_ih->pi_ev_stray_iq,
EVCNT_TYPE_MISC, NULL, name, "stray intr (IQ)");
}
#endif
void
cn30xxpow_init(struct cn30xxpow_softc *sc)
{
cn30xxpow_init_regs(sc);
sc->sc_int_pc_base = 10000;
cn30xxpow_config_int_pc(sc, sc->sc_int_pc_base);
#ifdef OCTEON_ETH_DEBUG
cn30xxpow_error_int_enable(sc, 1);
#endif
}
void
cn30xxpow_init_regs(struct cn30xxpow_softc *sc)
{
int status;
status = bus_space_map(sc->sc_regt, POW_BASE, POW_SIZE, 0,
&sc->sc_regh);
if (status != 0)
panic("can't map %s space", "pow register");
#ifdef OCTEON_ETH_DEBUG
_POW_WR8(sc, POW_ECC_ERR_OFFSET,
POW_ECC_ERR_IOP_IE | POW_ECC_ERR_RPE_IE |
POW_ECC_ERR_DBE_IE | POW_ECC_ERR_SBE_IE);
#endif
}
/* -------------------------------------------------------------------------- */
/* ---- interrupt handling */
#ifdef OCTEON_ETH_DEBUG
static void
cn30xxpow_intr_work_debug_ival(struct cn30xxpow_softc *sc,
struct cn30xxpow_intr_handle *pow_ih)
{
struct timeval now;
struct timeval ival;
int n;
microtime(&now);
if (__predict_false(pow_ih->pi_first == 1)) {
pow_ih->pi_first = 0;
goto stat_done;
}
timersub(&now, &pow_ih->pi_last, &ival);
if (ival.tv_sec != 0)
goto stat_done; /* XXX */
n = ffs64((uint64_t)ival.tv_usec);
if (n > (int)nitems(pow_ih->pi_ev_ival) - 1)
n = (int)nitems(pow_ih->pi_ev_ival) - 1;
pow_ih->pi_ev_ival[n].ev_count++;
stat_done:
pow_ih->pi_last = now; /* struct copy */
}
static void
cn30xxpow_intr_work_debug_per(struct cn30xxpow_softc *sc,
struct cn30xxpow_intr_handle *pow_ih, int count)
{
int n;
n = ffs64(count);
if (n > (int)nitems(pow_ih->pi_ev_per) - 1)
n = (int)nitems(pow_ih->pi_ev_per) - 1;
pow_ih->pi_ev_per[n].ev_count++;
#if 1
if (count == 0) {
uint64_t wq_int_cnt;
wq_int_cnt = _POW_GROUP_RD8(sc, pow_ih, POW_WQ_INT_CNT0_OFFSET);
if (wq_int_cnt & POW_WQ_INT_CNTX_TC_CNT)
pow_ih->pi_ev_stray_tc.ev_count++;
if (wq_int_cnt & POW_WQ_INT_CNTX_DS_CNT)
pow_ih->pi_ev_stray_ds.ev_count++;
if (wq_int_cnt & POW_WQ_INT_CNTX_IQ_CNT)
pow_ih->pi_ev_stray_iq.ev_count++;
}
#endif
}
#endif
#ifdef OCTEON_ETH_DEBUG
#define _POW_INTR_WORK_DEBUG_IVAL(sc, ih) \
cn30xxpow_intr_work_debug_ival((sc), (ih))
#define _POW_INTR_WORK_DEBUG_PER(sc, ih, count) \
cn30xxpow_intr_work_debug_per((sc), (ih), (count))
#else
#define _POW_INTR_WORK_DEBUG_IVAL(sc, ih) \
do {} while (0)
#define _POW_INTR_WORK_DEBUG_PER(sc, ih, count) \
do {} while (0)
#endif
/*
* Interrupt handling by fixed count.
*
* XXX the fixed count (MAX_RX_CNT) could be changed dynamically?
*
* XXX this does not utilize "tag switch" very well
*/
/*
* usually all packet recieve
*/
#define MAX_RX_CNT 0x7fffffff
static void
cn30xxpow_intr_work(struct cn30xxpow_softc *sc,
struct cn30xxpow_intr_handle *pow_ih, int max_recv_cnt)
{
uint64_t *work;
uint64_t count = 0;
int recv_cnt = MAX_RX_CNT;
/* s = splhigh(); */
_POW_WR8(sc, POW_PP_GRP_MSK0_OFFSET, 1ULL << pow_ih->pi_group);
if (max_recv_cnt > 0)
recv_cnt = max_recv_cnt - 1;
_POW_INTR_WORK_DEBUG_IVAL(sc, pow_ih);
cn30xxpow_tag_sw_wait();
cn30xxpow_work_request_async(OCTEON_CVMSEG_OFFSET(csm_pow_intr),
POW_NO_WAIT);
for (count = 0; count < recv_cnt; count++) {
work = (uint64_t *)cn30xxpow_work_response_async(
OCTEON_CVMSEG_OFFSET(csm_pow_intr));
if (work == NULL)
goto done;
cn30xxpow_tag_sw_wait();
cn30xxpow_work_request_async(
OCTEON_CVMSEG_OFFSET(csm_pow_intr), POW_NO_WAIT);
(*pow_ih->pi_cb)(pow_ih->pi_data, work);
}
work = (uint64_t *)cn30xxpow_work_response_async(
OCTEON_CVMSEG_OFFSET(csm_pow_intr));
if (work == NULL)
goto done;
(*pow_ih->pi_cb)(pow_ih->pi_data, work);
count++;
done:
_POW_INTR_WORK_DEBUG_PER(sc, pow_ih, count);
/* KASSERT(work == NULL); */
/* KASSERT(count > 0); */
/* _POW_WR8(sc, POW_PP_GRP, 0)ULL; */
/* splx(s); */
}
static int
cn30xxpow_intr(void *data)
{
struct cn30xxpow_intr_handle *pow_ih = data;
struct cn30xxpow_softc *sc = pow_ih->pi_sc;
uint64_t wq_int_mask = 0x1ULL << pow_ih->pi_group;
#if 0
if (ipflow_fastforward_disable_flags == 0)
cn30xxpow_intr_work(sc, pow_ih, -1);
else
cn30xxpow_intr_work(sc, pow_ih, recv_cnt);
#else
cn30xxpow_intr_work(sc, pow_ih, recv_cnt);
#endif
_POW_WR8(sc, POW_WQ_INT_OFFSET, wq_int_mask << POW_WQ_INT_WQ_INT_SHIFT);
return 1;
}
/* -------------------------------------------------------------------------- */
/* ---- debug configuration */
#ifdef OCTEON_ETH_DEBUG
void
cn30xxpow_error_int_enable(void *data, int enable)
{
struct cn30xxpow_softc *sc = data;
uint64_t pow_error_int_xxx;
pow_error_int_xxx =
POW_ECC_ERR_IOP | POW_ECC_ERR_RPE |
POW_ECC_ERR_DBE | POW_ECC_ERR_SBE;
_POW_WR8(sc, POW_ECC_ERR_OFFSET, pow_error_int_xxx);
_POW_WR8(sc, POW_ECC_ERR_OFFSET, enable ? pow_error_int_xxx : 0);
}
uint64_t
cn30xxpow_error_int_summary(void *data)
{
struct cn30xxpow_softc *sc = data;
uint64_t summary;
summary = _POW_RD8(sc, POW_ECC_ERR_OFFSET);
_POW_WR8(sc, POW_ECC_ERR_OFFSET, summary);
return summary;
}
#endif
/* -------------------------------------------------------------------------- */
/* ---- debug counter */
#ifdef OCTEON_ETH_DEBUG
int cn30xxpow_intr_rml_verbose;
struct evcnt cn30xxpow_intr_evcnt;
static const struct octeon_evcnt_entry cn30xxpow_intr_evcnt_entries[] = {
#define _ENTRY(name, type, parent, descr) \
OCTEON_EVCNT_ENTRY(struct cn30xxpow_softc, name, type, parent, descr)
_ENTRY(powecciopcsrpend, MISC, NULL, "pow csr load"),
_ENTRY(powecciopdbgpend, MISC, NULL, "pow dbg load"),
_ENTRY(powecciopaddwork, MISC, NULL, "pow addwork"),
_ENTRY(powecciopillop, MISC, NULL, "pow ill op"),
_ENTRY(poweccioppend24, MISC, NULL, "pow pend24"),
_ENTRY(poweccioppend23, MISC, NULL, "pow pend23"),
_ENTRY(poweccioppend22, MISC, NULL, "pow pend22"),
_ENTRY(poweccioppend21, MISC, NULL, "pow pend21"),
_ENTRY(poweccioptagnull, MISC, NULL, "pow tag null"),
_ENTRY(poweccioptagnullnull, MISC, NULL, "pow tag nullnull"),
_ENTRY(powecciopordatom, MISC, NULL, "pow ordered atomic"),
_ENTRY(powecciopnull, MISC, NULL, "pow core null"),
_ENTRY(powecciopnullnull, MISC, NULL, "pow core nullnull"),
_ENTRY(poweccrpe, MISC, NULL, "pow remote-pointer error"),
_ENTRY(poweccsyn, MISC, NULL, "pow syndrome value"),
_ENTRY(poweccdbe, MISC, NULL, "pow double bit"),
_ENTRY(poweccsbe, MISC, NULL, "pow single bit"),
#undef _ENTRY
};
void
cn30xxpow_intr_evcnt_attach(struct cn30xxpow_softc *sc)
{
OCTEON_EVCNT_ATTACH_EVCNTS(sc, cn30xxpow_intr_evcnt_entries, "pow0");
}
void
cn30xxpow_intr_rml(void *arg)
{
struct cn30xxpow_softc *sc;
uint64_t reg;
cn30xxpow_intr_evcnt.ev_count++;
sc = __cn30xxpow_softc;
KASSERT(sc != NULL);
reg = cn30xxpow_error_int_summary(sc);
if (cn30xxpow_intr_rml_verbose)
printf("%s: POW_ECC_ERR=0x%016" PRIx64 "\n", __func__, reg);
switch (reg & POW_ECC_ERR_IOP) {
case POW_ECC_ERR_IOP_CSRPEND:
OCTEON_EVCNT_INC(sc, powecciopcsrpend);
break;
case POW_ECC_ERR_IOP_DBGPEND:
OCTEON_EVCNT_INC(sc, powecciopdbgpend);
break;
case POW_ECC_ERR_IOP_ADDWORK:
OCTEON_EVCNT_INC(sc, powecciopaddwork);
break;
case POW_ECC_ERR_IOP_ILLOP:
OCTEON_EVCNT_INC(sc, powecciopillop);
break;
case POW_ECC_ERR_IOP_PEND24:
OCTEON_EVCNT_INC(sc, poweccioppend24);
break;
case POW_ECC_ERR_IOP_PEND23:
OCTEON_EVCNT_INC(sc, poweccioppend23);
break;
case POW_ECC_ERR_IOP_PEND22:
OCTEON_EVCNT_INC(sc, poweccioppend22);
break;
case POW_ECC_ERR_IOP_PEND21:
OCTEON_EVCNT_INC(sc, poweccioppend21);
break;
case POW_ECC_ERR_IOP_TAGNULL:
OCTEON_EVCNT_INC(sc, poweccioptagnull);
break;
case POW_ECC_ERR_IOP_TAGNULLNULL:
OCTEON_EVCNT_INC(sc, poweccioptagnullnull);
break;
case POW_ECC_ERR_IOP_ORDATOM:
OCTEON_EVCNT_INC(sc, powecciopordatom);
break;
case POW_ECC_ERR_IOP_NULL:
OCTEON_EVCNT_INC(sc, powecciopnull);
break;
case POW_ECC_ERR_IOP_NULLNULL:
OCTEON_EVCNT_INC(sc, powecciopnullnull);
break;
default:
break;
}
if (reg & POW_ECC_ERR_RPE)
OCTEON_EVCNT_INC(sc, poweccrpe);
if (reg & POW_ECC_ERR_SYN)
OCTEON_EVCNT_INC(sc, poweccsyn);
if (reg & POW_ECC_ERR_DBE)
OCTEON_EVCNT_INC(sc, poweccdbe);
if (reg & POW_ECC_ERR_SBE)
OCTEON_EVCNT_INC(sc, poweccsbe);
}
#endif
/* -------------------------------------------------------------------------- */
/* ---- debug dump */
#ifdef OCTEON_ETH_DEBUG
void cn30xxpow_dump_reg(void);
void cn30xxpow_dump_ops(void);
void
cn30xxpow_dump(void)
{
cn30xxpow_dump_reg();
cn30xxpow_dump_ops();
}
/* ---- register dump */
struct cn30xxpow_dump_reg_entry {
const char *name;
const char *format;
size_t offset;
};
#define _ENTRY(x) { #x, x##_BITS, x##_OFFSET }
#define _ENTRY_0_7(x) \
_ENTRY(x## 0), _ENTRY(x## 1), _ENTRY(x## 2), _ENTRY(x## 3), \
_ENTRY(x## 4), _ENTRY(x## 5), _ENTRY(x## 6), _ENTRY(x## 7)
#define _ENTRY_0_15(x) \
_ENTRY(x## 0), _ENTRY(x## 1), _ENTRY(x## 2), _ENTRY(x## 3), \
_ENTRY(x## 4), _ENTRY(x## 5), _ENTRY(x## 6), _ENTRY(x## 7), \
_ENTRY(x## 8), _ENTRY(x## 9), _ENTRY(x##10), _ENTRY(x##11), \
_ENTRY(x##12), _ENTRY(x##13), _ENTRY(x##14), _ENTRY(x##15)
static const struct cn30xxpow_dump_reg_entry cn30xxpow_dump_reg_entries[] = {
_ENTRY (POW_PP_GRP_MSK0),
_ENTRY (POW_PP_GRP_MSK1),
_ENTRY_0_15 (POW_WQ_INT_THR),
_ENTRY_0_15 (POW_WQ_INT_CNT),
_ENTRY_0_7 (POW_QOS_THR),
_ENTRY_0_7 (POW_QOS_RND),
_ENTRY (POW_WQ_INT),
_ENTRY (POW_WQ_INT_PC),
_ENTRY (POW_NW_TIM),
_ENTRY (POW_ECC_ERR),
_ENTRY (POW_NOS_CNT),
_ENTRY_0_15 (POW_WS_PC),
_ENTRY_0_7 (POW_WA_PC),
_ENTRY_0_7 (POW_IQ_CNT),
_ENTRY (POW_WA_COM_PC),
_ENTRY (POW_IQ_COM_CNT),
_ENTRY (POW_TS_PC),
_ENTRY (POW_DS_PC),
_ENTRY (POW_BIST_STAT)
};
#undef _ENTRY
void
cn30xxpow_dump_reg(void)
{
struct cn30xxpow_softc *sc = __cn30xxpow_softc;
const struct cn30xxpow_dump_reg_entry *entry;
uint64_t tmp;
char buf[512];
int i;
for (i = 0; i < (int)nitems(cn30xxpow_dump_reg_entries); i++) {
entry = &cn30xxpow_dump_reg_entries[i];
tmp = _POW_RD8(sc, entry->offset);
if (entry->format == NULL)
snprintf(buf, sizeof(buf), "%16" PRIx64, tmp);
else
bitmask_snprintf(tmp, entry->format, buf, sizeof(buf));
printf("\t%-24s: %s\n", entry->name, buf);
}
}
/* ---- operations dump */
struct cn30xxpow_dump_ops_entry {
const char *name;
const char *format;
uint64_t (*func)(int);
};
void cn30xxpow_dump_ops_coreid(int);
void cn30xxpow_dump_ops_index(int);
void cn30xxpow_dump_ops_qos(int);
void cn30xxpow_dump_ops_grp(int);
void cn30xxpow_dump_ops_queue(int);
void cn30xxpow_dump_ops_common(const struct
cn30xxpow_dump_ops_entry *, size_t, const char *,
int);
#define _ENTRY_COMMON(name, prefix, x, y) \
{ #name "_" #x, prefix##_##y##_BITS, cn30xxpow_status_by_##name##_##x }
const struct cn30xxpow_dump_ops_entry cn30xxpow_dump_ops_coreid_entries[] = {
#define _ENTRY(x, y) _ENTRY_COMMON(coreid, POW_STATUS_LOAD_RESULT, x, y)
_ENTRY(pend_tag, PEND_TAG),
_ENTRY(pend_wqp, PEND_WQP),
_ENTRY(cur_tag_next, CUR_TAG_NEXT),
_ENTRY(cur_tag_prev, CUR_TAG_PREV),
_ENTRY(cur_wqp_next, CUR_WQP_NEXT),
_ENTRY(cur_wqp_prev, CUR_WQP_PREV)
#undef _ENTRY
};
const struct cn30xxpow_dump_ops_entry cn30xxpow_dump_ops_index_entries[] = {
#define _ENTRY(x, y) _ENTRY_COMMON(index, POW_MEMORY_LOAD_RESULT, x, y)
_ENTRY(tag, TAG),
_ENTRY(wqp, WQP),
_ENTRY(desched, DESCHED)
#undef _ENTRY
};
const struct cn30xxpow_dump_ops_entry cn30xxpow_dump_ops_qos_entries[] = {
#define _ENTRY(x, y) _ENTRY_COMMON(qos, POW_IDXPTR_LOAD_RESULT_QOS, x, y)
_ENTRY(free_loc, FREE_LOC)
#undef _ENTRY
};
const struct cn30xxpow_dump_ops_entry cn30xxpow_dump_ops_grp_entries[] = {
#define _ENTRY(x, y) _ENTRY_COMMON(grp, POW_IDXPTR_LOAD_RESULT_GRP, x, y)
_ENTRY(nosched_des, NOSCHED_DES)
#undef _ENTRY
};
const struct cn30xxpow_dump_ops_entry cn30xxpow_dump_ops_queue_entries[] = {
#define _ENTRY(x, y) _ENTRY_COMMON(queue, POW_IDXPTR_LOAD_RESULT_QUEUE, x, y)
_ENTRY(remote_head, REMOTE_HEAD),
_ENTRY(remote_tail, REMOTE_TAIL)
#undef _ENTRY
};
void
cn30xxpow_dump_ops(void)
{
int i;
/* XXX */
for (i = 0; i < 2/* XXX */; i++)
cn30xxpow_dump_ops_coreid(i);
/* XXX */
cn30xxpow_dump_ops_index(0);
for (i = 0; i < 8; i++)
cn30xxpow_dump_ops_qos(i);
for (i = 0; i < 16; i++)
cn30xxpow_dump_ops_grp(i);
for (i = 0; i < 16; i++)
cn30xxpow_dump_ops_queue(i);
}
void
cn30xxpow_dump_ops_coreid(int coreid)
{
cn30xxpow_dump_ops_common(cn30xxpow_dump_ops_coreid_entries,
nitems(cn30xxpow_dump_ops_coreid_entries), "coreid", coreid);
}
void
cn30xxpow_dump_ops_index(int index)
{
cn30xxpow_dump_ops_common(cn30xxpow_dump_ops_index_entries,
nitems(cn30xxpow_dump_ops_index_entries), "index", index);
}
void
cn30xxpow_dump_ops_qos(int qos)
{
cn30xxpow_dump_ops_common(cn30xxpow_dump_ops_qos_entries,
nitems(cn30xxpow_dump_ops_qos_entries), "qos", qos);
}
void
cn30xxpow_dump_ops_grp(int grp)
{
cn30xxpow_dump_ops_common(cn30xxpow_dump_ops_grp_entries,
nitems(cn30xxpow_dump_ops_grp_entries), "grp", grp);
}
void
cn30xxpow_dump_ops_queue(int queue)
{
cn30xxpow_dump_ops_common(cn30xxpow_dump_ops_queue_entries,
nitems(cn30xxpow_dump_ops_queue_entries), "queue", queue);
}
void
cn30xxpow_dump_ops_common(const struct cn30xxpow_dump_ops_entry *entries,
size_t nentries, const char *by_what, int arg)
{
const struct cn30xxpow_dump_ops_entry *entry;
uint64_t tmp;
char buf[512];
int i;
printf("%s=%d\n", by_what, arg);
for (i = 0; i < (int)nentries; i++) {
entry = &entries[i];
tmp = (*entry->func)(arg);
if (entry->format == NULL)
snprintf(buf, sizeof(buf), "%16" PRIx64, tmp);
else
bitmask_snprintf(tmp, entry->format, buf, sizeof(buf));
printf("\t%-24s: %s\n", entry->name, buf);
}
}
#endif
/* -------------------------------------------------------------------------- */
/* ---- test */
#ifdef OCTEON_POW_TEST
/*
* Standalone test entries; meant to be called from ddb.
*/
void cn30xxpow_test(void);
void cn30xxpow_test_dump_wqe(paddr_t);
static void cn30xxpow_test_1(void);
struct test_wqe {
uint64_t word0;
uint64_t word1;
uint64_t word2;
uint64_t word3;
} __packed;
struct test_wqe test_wqe;
void
cn30xxpow_test(void)
{
cn30xxpow_test_1();
}
static void
cn30xxpow_test_1(void)
{
struct test_wqe *wqe = &test_wqe;
int qos, grp, queue, tt;
uint32_t tag;
paddr_t ptr;
qos = 7; /* XXX */
grp = queue = 15; /* XXX */
tt = POW_TAG_TYPE_ORDERED; /* XXX */
tag = UINT32_C(0x01234567); /* XXX */
/* => make sure that the queue is empty */
cn30xxpow_dump_ops_qos(qos);
cn30xxpow_dump_ops_grp(grp);
printf("\n");
/*
* Initialize WQE.
*
* word0:next is used by hardware.
*
* word1:qos, word1:grp, word1:tt, word1:tag must match with arguments
* of the following ADDWQ transaction.
*/
(void)memset(wqe, 0, sizeof(*wqe));
wqe->word0 =
__BITS64_SET(POW_WQE_WORD0_NEXT, 0);
wqe->word1 =
__BITS64_SET(POW_WQE_WORD1_QOS, qos) |
__BITS64_SET(POW_WQE_WORD1_GRP, grp) |
__BITS64_SET(POW_WQE_WORD1_TT, tt) |
__BITS64_SET(POW_WQE_WORD1_TAG, tag);
printf("calling ADDWQ\n");
cn30xxpow_ops_addwq(MIPS_KSEG0_TO_PHYS(wqe), qos, grp, tt, tag);
cn30xxpow_dump_ops_qos(qos);
cn30xxpow_dump_ops_grp(grp);
printf("\n");
/* => make sure that a WQE is added to the queue */
printf("calling GET_WORK_LOAD\n");
ptr = cn30xxpow_ops_get_work_load(0);
cn30xxpow_dump_ops_qos(qos);
cn30xxpow_dump_ops_grp(grp);
printf("\n");
cn30xxpow_test_dump_wqe(ptr);
/* => make sure that the WQE is in-flight (and scheduled) */
printf("calling SWTAG(NULL)\n");
cn30xxpow_ops_swtag(POW_TAG_TYPE_NULL, tag);
cn30xxpow_dump_ops_qos(qos);
cn30xxpow_dump_ops_grp(grp);
printf("\n");
/* => make sure that the WQE is un-scheduled (completed) */
}
void
cn30xxpow_test_dump_wqe(paddr_t ptr)
{
uint64_t word0, word1;
char buf[128];
printf("wqe\n");
word0 = *(uint64_t *)PHYS_TO_CKSEG0(ptr);
bitmask_snprintf(word0, POW_WQE_WORD0_BITS, buf, sizeof(buf));
printf("\t%-24s: %s\n", "word0", buf);
word1 = *(uint64_t *)PHYS_TO_CKSEG0(ptr + 8);
bitmask_snprintf(word1, POW_WQE_WORD1_BITS, buf, sizeof(buf));
printf("\t%-24s: %s\n", "word1", buf);
}
#endif
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