Commit a3bfb617 authored by Hariprasad Shenai's avatar Hariprasad Shenai Committed by David S. Miller

cxgb4: Move SGE Ingress DMA state monitor code to a new routine

Signed-off-by: default avatarHariprasad Shenai <hariprasad@chelsio.com>
Signed-off-by: default avatarDavid S. Miller <davem@davemloft.net>
parent 982b81eb
...@@ -328,6 +328,17 @@ struct adapter_params { ...@@ -328,6 +328,17 @@ struct adapter_params {
unsigned int max_ird_adapter; /* Max read depth per adapter */ unsigned int max_ird_adapter; /* Max read depth per adapter */
}; };
/* State needed to monitor the forward progress of SGE Ingress DMA activities
* and possible hangs.
*/
struct sge_idma_monitor_state {
unsigned int idma_1s_thresh; /* 1s threshold in Core Clock ticks */
unsigned int idma_stalled[2]; /* synthesized stalled timers in HZ */
unsigned int idma_state[2]; /* IDMA Hang detect state */
unsigned int idma_qid[2]; /* IDMA Hung Ingress Queue ID */
unsigned int idma_warn[2]; /* time to warning in HZ */
};
#include "t4fw_api.h" #include "t4fw_api.h"
#define FW_VERSION(chip) ( \ #define FW_VERSION(chip) ( \
...@@ -630,12 +641,7 @@ struct sge { ...@@ -630,12 +641,7 @@ struct sge {
u32 fl_align; /* response queue message alignment */ u32 fl_align; /* response queue message alignment */
u32 fl_starve_thres; /* Free List starvation threshold */ u32 fl_starve_thres; /* Free List starvation threshold */
/* State variables for detecting an SGE Ingress DMA hang */ struct sge_idma_monitor_state idma_monitor;
unsigned int idma_1s_thresh;/* SGE same State Counter 1s threshold */
unsigned int idma_stalled[2];/* SGE synthesized stalled timers in HZ */
unsigned int idma_state[2]; /* SGE IDMA Hang detect state */
unsigned int idma_qid[2]; /* SGE IDMA Hung Ingress Queue ID */
unsigned int egr_start; unsigned int egr_start;
unsigned int egr_sz; unsigned int egr_sz;
unsigned int ingr_start; unsigned int ingr_start;
...@@ -1311,4 +1317,9 @@ int t4_fwaddrspace_write(struct adapter *adap, unsigned int mbox, ...@@ -1311,4 +1317,9 @@ int t4_fwaddrspace_write(struct adapter *adap, unsigned int mbox,
u32 addr, u32 val); u32 addr, u32 val);
void t4_sge_decode_idma_state(struct adapter *adapter, int state); void t4_sge_decode_idma_state(struct adapter *adapter, int state);
void t4_free_mem(void *addr); void t4_free_mem(void *addr);
void t4_idma_monitor_init(struct adapter *adapter,
struct sge_idma_monitor_state *idma);
void t4_idma_monitor(struct adapter *adapter,
struct sge_idma_monitor_state *idma,
int hz, int ticks);
#endif /* __CXGB4_H__ */ #endif /* __CXGB4_H__ */
...@@ -100,16 +100,6 @@ ...@@ -100,16 +100,6 @@
*/ */
#define TX_QCHECK_PERIOD (HZ / 2) #define TX_QCHECK_PERIOD (HZ / 2)
/* SGE Hung Ingress DMA Threshold Warning time (in Hz) and Warning Repeat Rate
* (in RX_QCHECK_PERIOD multiples). If we find one of the SGE Ingress DMA
* State Machines in the same state for this amount of time (in HZ) then we'll
* issue a warning about a potential hang. We'll repeat the warning as the
* SGE Ingress DMA Channel appears to be hung every N RX_QCHECK_PERIODs till
* the situation clears. If the situation clears, we'll note that as well.
*/
#define SGE_IDMA_WARN_THRESH (1 * HZ)
#define SGE_IDMA_WARN_REPEAT (20 * RX_QCHECK_PERIOD)
/* /*
* Max number of Tx descriptors to be reclaimed by the Tx timer. * Max number of Tx descriptors to be reclaimed by the Tx timer.
*/ */
...@@ -2279,7 +2269,7 @@ irq_handler_t t4_intr_handler(struct adapter *adap) ...@@ -2279,7 +2269,7 @@ irq_handler_t t4_intr_handler(struct adapter *adap)
static void sge_rx_timer_cb(unsigned long data) static void sge_rx_timer_cb(unsigned long data)
{ {
unsigned long m; unsigned long m;
unsigned int i, idma_same_state_cnt[2]; unsigned int i;
struct adapter *adap = (struct adapter *)data; struct adapter *adap = (struct adapter *)data;
struct sge *s = &adap->sge; struct sge *s = &adap->sge;
...@@ -2300,67 +2290,16 @@ static void sge_rx_timer_cb(unsigned long data) ...@@ -2300,67 +2290,16 @@ static void sge_rx_timer_cb(unsigned long data)
set_bit(id, s->starving_fl); set_bit(id, s->starving_fl);
} }
} }
/* The remainder of the SGE RX Timer Callback routine is dedicated to
* global Master PF activities like checking for chip ingress stalls,
* etc.
*/
if (!(adap->flags & MASTER_PF))
goto done;
t4_write_reg(adap, SGE_DEBUG_INDEX_A, 13); t4_idma_monitor(adap, &s->idma_monitor, HZ, RX_QCHECK_PERIOD);
idma_same_state_cnt[0] = t4_read_reg(adap, SGE_DEBUG_DATA_HIGH_A);
idma_same_state_cnt[1] = t4_read_reg(adap, SGE_DEBUG_DATA_LOW_A);
for (i = 0; i < 2; i++) {
u32 debug0, debug11;
/* If the Ingress DMA Same State Counter ("timer") is less
* than 1s, then we can reset our synthesized Stall Timer and
* continue. If we have previously emitted warnings about a
* potential stalled Ingress Queue, issue a note indicating
* that the Ingress Queue has resumed forward progress.
*/
if (idma_same_state_cnt[i] < s->idma_1s_thresh) {
if (s->idma_stalled[i] >= SGE_IDMA_WARN_THRESH)
CH_WARN(adap, "SGE idma%d, queue%u,resumed after %d sec\n",
i, s->idma_qid[i],
s->idma_stalled[i]/HZ);
s->idma_stalled[i] = 0;
continue;
}
/* Synthesize an SGE Ingress DMA Same State Timer in the Hz
* domain. The first time we get here it'll be because we
* passed the 1s Threshold; each additional time it'll be
* because the RX Timer Callback is being fired on its regular
* schedule.
*
* If the stall is below our Potential Hung Ingress Queue
* Warning Threshold, continue.
*/
if (s->idma_stalled[i] == 0)
s->idma_stalled[i] = HZ;
else
s->idma_stalled[i] += RX_QCHECK_PERIOD;
if (s->idma_stalled[i] < SGE_IDMA_WARN_THRESH)
continue;
/* We'll issue a warning every SGE_IDMA_WARN_REPEAT Hz */
if (((s->idma_stalled[i] - HZ) % SGE_IDMA_WARN_REPEAT) != 0)
continue;
/* Read and save the SGE IDMA State and Queue ID information.
* We do this every time in case it changes across time ...
*/
t4_write_reg(adap, SGE_DEBUG_INDEX_A, 0);
debug0 = t4_read_reg(adap, SGE_DEBUG_DATA_LOW_A);
s->idma_state[i] = (debug0 >> (i * 9)) & 0x3f;
t4_write_reg(adap, SGE_DEBUG_INDEX_A, 11);
debug11 = t4_read_reg(adap, SGE_DEBUG_DATA_LOW_A);
s->idma_qid[i] = (debug11 >> (i * 16)) & 0xffff;
CH_WARN(adap, "SGE idma%u, queue%u, maybe stuck state%u %dsecs (debug0=%#x, debug11=%#x)\n",
i, s->idma_qid[i], s->idma_state[i],
s->idma_stalled[i]/HZ, debug0, debug11);
t4_sge_decode_idma_state(adap, s->idma_state[i]);
}
done:
mod_timer(&s->rx_timer, jiffies + RX_QCHECK_PERIOD); mod_timer(&s->rx_timer, jiffies + RX_QCHECK_PERIOD);
} }
...@@ -3121,11 +3060,11 @@ int t4_sge_init(struct adapter *adap) ...@@ -3121,11 +3060,11 @@ int t4_sge_init(struct adapter *adap)
egress_threshold = EGRTHRESHOLDPACKING_G(sge_conm_ctrl); egress_threshold = EGRTHRESHOLDPACKING_G(sge_conm_ctrl);
s->fl_starve_thres = 2*egress_threshold + 1; s->fl_starve_thres = 2*egress_threshold + 1;
t4_idma_monitor_init(adap, &s->idma_monitor);
setup_timer(&s->rx_timer, sge_rx_timer_cb, (unsigned long)adap); setup_timer(&s->rx_timer, sge_rx_timer_cb, (unsigned long)adap);
setup_timer(&s->tx_timer, sge_tx_timer_cb, (unsigned long)adap); setup_timer(&s->tx_timer, sge_tx_timer_cb, (unsigned long)adap);
s->idma_1s_thresh = core_ticks_per_usec(adap) * 1000000; /* 1 s */
s->idma_stalled[0] = 0;
s->idma_stalled[1] = 0;
spin_lock_init(&s->intrq_lock); spin_lock_init(&s->intrq_lock);
return 0; return 0;
......
...@@ -5717,3 +5717,130 @@ void t4_tp_read_la(struct adapter *adap, u64 *la_buf, unsigned int *wrptr) ...@@ -5717,3 +5717,130 @@ void t4_tp_read_la(struct adapter *adap, u64 *la_buf, unsigned int *wrptr)
t4_write_reg(adap, TP_DBG_LA_CONFIG_A, t4_write_reg(adap, TP_DBG_LA_CONFIG_A,
cfg | adap->params.tp.la_mask); cfg | adap->params.tp.la_mask);
} }
/* SGE Hung Ingress DMA Warning Threshold time and Warning Repeat Rate (in
* seconds). If we find one of the SGE Ingress DMA State Machines in the same
* state for more than the Warning Threshold then we'll issue a warning about
* a potential hang. We'll repeat the warning as the SGE Ingress DMA Channel
* appears to be hung every Warning Repeat second till the situation clears.
* If the situation clears, we'll note that as well.
*/
#define SGE_IDMA_WARN_THRESH 1
#define SGE_IDMA_WARN_REPEAT 300
/**
* t4_idma_monitor_init - initialize SGE Ingress DMA Monitor
* @adapter: the adapter
* @idma: the adapter IDMA Monitor state
*
* Initialize the state of an SGE Ingress DMA Monitor.
*/
void t4_idma_monitor_init(struct adapter *adapter,
struct sge_idma_monitor_state *idma)
{
/* Initialize the state variables for detecting an SGE Ingress DMA
* hang. The SGE has internal counters which count up on each clock
* tick whenever the SGE finds its Ingress DMA State Engines in the
* same state they were on the previous clock tick. The clock used is
* the Core Clock so we have a limit on the maximum "time" they can
* record; typically a very small number of seconds. For instance,
* with a 600MHz Core Clock, we can only count up to a bit more than
* 7s. So we'll synthesize a larger counter in order to not run the
* risk of having the "timers" overflow and give us the flexibility to
* maintain a Hung SGE State Machine of our own which operates across
* a longer time frame.
*/
idma->idma_1s_thresh = core_ticks_per_usec(adapter) * 1000000; /* 1s */
idma->idma_stalled[0] = 0;
idma->idma_stalled[1] = 0;
}
/**
* t4_idma_monitor - monitor SGE Ingress DMA state
* @adapter: the adapter
* @idma: the adapter IDMA Monitor state
* @hz: number of ticks/second
* @ticks: number of ticks since the last IDMA Monitor call
*/
void t4_idma_monitor(struct adapter *adapter,
struct sge_idma_monitor_state *idma,
int hz, int ticks)
{
int i, idma_same_state_cnt[2];
/* Read the SGE Debug Ingress DMA Same State Count registers. These
* are counters inside the SGE which count up on each clock when the
* SGE finds its Ingress DMA State Engines in the same states they
* were in the previous clock. The counters will peg out at
* 0xffffffff without wrapping around so once they pass the 1s
* threshold they'll stay above that till the IDMA state changes.
*/
t4_write_reg(adapter, SGE_DEBUG_INDEX_A, 13);
idma_same_state_cnt[0] = t4_read_reg(adapter, SGE_DEBUG_DATA_HIGH_A);
idma_same_state_cnt[1] = t4_read_reg(adapter, SGE_DEBUG_DATA_LOW_A);
for (i = 0; i < 2; i++) {
u32 debug0, debug11;
/* If the Ingress DMA Same State Counter ("timer") is less
* than 1s, then we can reset our synthesized Stall Timer and
* continue. If we have previously emitted warnings about a
* potential stalled Ingress Queue, issue a note indicating
* that the Ingress Queue has resumed forward progress.
*/
if (idma_same_state_cnt[i] < idma->idma_1s_thresh) {
if (idma->idma_stalled[i] >= SGE_IDMA_WARN_THRESH * hz)
dev_warn(adapter->pdev_dev, "SGE idma%d, queue %u, "
"resumed after %d seconds\n",
i, idma->idma_qid[i],
idma->idma_stalled[i] / hz);
idma->idma_stalled[i] = 0;
continue;
}
/* Synthesize an SGE Ingress DMA Same State Timer in the Hz
* domain. The first time we get here it'll be because we
* passed the 1s Threshold; each additional time it'll be
* because the RX Timer Callback is being fired on its regular
* schedule.
*
* If the stall is below our Potential Hung Ingress Queue
* Warning Threshold, continue.
*/
if (idma->idma_stalled[i] == 0) {
idma->idma_stalled[i] = hz;
idma->idma_warn[i] = 0;
} else {
idma->idma_stalled[i] += ticks;
idma->idma_warn[i] -= ticks;
}
if (idma->idma_stalled[i] < SGE_IDMA_WARN_THRESH * hz)
continue;
/* We'll issue a warning every SGE_IDMA_WARN_REPEAT seconds.
*/
if (idma->idma_warn[i] > 0)
continue;
idma->idma_warn[i] = SGE_IDMA_WARN_REPEAT * hz;
/* Read and save the SGE IDMA State and Queue ID information.
* We do this every time in case it changes across time ...
* can't be too careful ...
*/
t4_write_reg(adapter, SGE_DEBUG_INDEX_A, 0);
debug0 = t4_read_reg(adapter, SGE_DEBUG_DATA_LOW_A);
idma->idma_state[i] = (debug0 >> (i * 9)) & 0x3f;
t4_write_reg(adapter, SGE_DEBUG_INDEX_A, 11);
debug11 = t4_read_reg(adapter, SGE_DEBUG_DATA_LOW_A);
idma->idma_qid[i] = (debug11 >> (i * 16)) & 0xffff;
dev_warn(adapter->pdev_dev, "SGE idma%u, queue %u, potentially stuck in "
"state %u for %d seconds (debug0=%#x, debug11=%#x)\n",
i, idma->idma_qid[i], idma->idma_state[i],
idma->idma_stalled[i] / hz,
debug0, debug11);
t4_sge_decode_idma_state(adapter, idma->idma_state[i]);
}
}
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