numam-dpdk/drivers/common/cnxk/roc_npa_debug.c

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/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(C) 2021 Marvell.
*/
#include "roc_api.h"
#include "roc_priv.h"
#define npa_dump(fmt, ...) fprintf(stderr, fmt "\n", ##__VA_ARGS__)
static inline void
npa_pool_dump(__io struct npa_pool_s *pool)
{
npa_dump("W0: Stack base\t\t0x%" PRIx64 "", pool->stack_base);
npa_dump("W1: ena \t\t%d\nW1: nat_align \t\t%d\nW1: stack_caching \t%d",
pool->ena, pool->nat_align, pool->stack_caching);
npa_dump("W1: stack_way_mask\t%d\nW1: buf_offset\t\t%d",
pool->stack_way_mask, pool->buf_offset);
npa_dump("W1: buf_size \t\t%d", pool->buf_size);
npa_dump("W2: stack_max_pages \t%d\nW2: stack_pages\t\t%d",
pool->stack_max_pages, pool->stack_pages);
npa_dump("W3: op_pc \t\t0x%" PRIx64 "", (uint64_t)pool->op_pc);
npa_dump("W4: stack_offset\t%d\nW4: shift\t\t%d\nW4: avg_level\t\t%d",
pool->stack_offset, pool->shift, pool->avg_level);
npa_dump("W4: avg_con \t\t%d\nW4: fc_ena\t\t%d\nW4: fc_stype\t\t%d",
pool->avg_con, pool->fc_ena, pool->fc_stype);
npa_dump("W4: fc_hyst_bits\t%d\nW4: fc_up_crossing\t%d",
pool->fc_hyst_bits, pool->fc_up_crossing);
npa_dump("W4: update_time\t\t%d\n", pool->update_time);
npa_dump("W5: fc_addr\t\t0x%" PRIx64 "\n", pool->fc_addr);
npa_dump("W6: ptr_start\t\t0x%" PRIx64 "\n", pool->ptr_start);
npa_dump("W7: ptr_end\t\t0x%" PRIx64 "\n", pool->ptr_end);
npa_dump("W8: err_int\t\t%d\nW8: err_int_ena\t\t%d", pool->err_int,
pool->err_int_ena);
npa_dump("W8: thresh_int\t\t%d", pool->thresh_int);
npa_dump("W8: thresh_int_ena\t%d\nW8: thresh_up\t\t%d",
pool->thresh_int_ena, pool->thresh_up);
npa_dump("W8: thresh_qint_idx\t%d\nW8: err_qint_idx\t%d",
pool->thresh_qint_idx, pool->err_qint_idx);
}
static inline void
npa_aura_dump(__io struct npa_aura_s *aura)
{
npa_dump("W0: Pool addr\t\t0x%" PRIx64 "\n", aura->pool_addr);
npa_dump("W1: ena\t\t\t%d\nW1: pool caching\t%d\nW1: pool way mask\t%d",
aura->ena, aura->pool_caching, aura->pool_way_mask);
npa_dump("W1: avg con\t\t%d\nW1: pool drop ena\t%d", aura->avg_con,
aura->pool_drop_ena);
npa_dump("W1: aura drop ena\t%d", aura->aura_drop_ena);
npa_dump("W1: bp_ena\t\t%d\nW1: aura drop\t\t%d\nW1: aura shift\t\t%d",
aura->bp_ena, aura->aura_drop, aura->shift);
npa_dump("W1: avg_level\t\t%d\n", aura->avg_level);
npa_dump("W2: count\t\t%" PRIx64 "\nW2: nix0_bpid\t\t%d",
(uint64_t)aura->count, aura->nix0_bpid);
npa_dump("W2: nix1_bpid\t\t%d", aura->nix1_bpid);
npa_dump("W3: limit\t\t%" PRIx64 "\nW3: bp\t\t\t%d\nW3: fc_ena\t\t%d\n",
(uint64_t)aura->limit, aura->bp, aura->fc_ena);
npa_dump("W3: fc_up_crossing\t%d\nW3: fc_stype\t\t%d",
aura->fc_up_crossing, aura->fc_stype);
npa_dump("W3: fc_hyst_bits\t%d", aura->fc_hyst_bits);
npa_dump("W4: fc_addr\t\t0x%" PRIx64 "\n", aura->fc_addr);
npa_dump("W5: pool_drop\t\t%d\nW5: update_time\t\t%d", aura->pool_drop,
aura->update_time);
npa_dump("W5: err_int\t\t%d", aura->err_int);
npa_dump("W5: err_int_ena\t\t%d\nW5: thresh_int\t\t%d",
aura->err_int_ena, aura->thresh_int);
npa_dump("W5: thresh_int_ena\t%d", aura->thresh_int_ena);
npa_dump("W5: thresh_up\t\t%d\nW5: thresh_qint_idx\t%d",
aura->thresh_up, aura->thresh_qint_idx);
npa_dump("W5: err_qint_idx\t%d", aura->err_qint_idx);
npa_dump("W6: thresh\t\t%" PRIx64 "\n", (uint64_t)aura->thresh);
}
int
roc_npa_ctx_dump(void)
{
struct npa_aq_enq_req *aq;
struct npa_aq_enq_rsp *rsp;
struct npa_lf *lf;
uint32_t q;
int rc = 0;
lf = idev_npa_obj_get();
if (lf == NULL)
return NPA_ERR_DEVICE_NOT_BOUNDED;
for (q = 0; q < lf->nr_pools; q++) {
/* Skip disabled POOL */
if (plt_bitmap_get(lf->npa_bmp, q))
continue;
aq = mbox_alloc_msg_npa_aq_enq(lf->mbox);
if (aq == NULL)
return -ENOSPC;
aq->aura_id = q;
aq->ctype = NPA_AQ_CTYPE_POOL;
aq->op = NPA_AQ_INSTOP_READ;
rc = mbox_process_msg(lf->mbox, (void *)&rsp);
if (rc) {
plt_err("Failed to get pool(%d) context", q);
return rc;
}
npa_dump("============== pool=%d ===============\n", q);
npa_pool_dump(&rsp->pool);
}
for (q = 0; q < lf->nr_pools; q++) {
/* Skip disabled AURA */
if (plt_bitmap_get(lf->npa_bmp, q))
continue;
aq = mbox_alloc_msg_npa_aq_enq(lf->mbox);
if (aq == NULL)
return -ENOSPC;
aq->aura_id = q;
aq->ctype = NPA_AQ_CTYPE_AURA;
aq->op = NPA_AQ_INSTOP_READ;
rc = mbox_process_msg(lf->mbox, (void *)&rsp);
if (rc) {
plt_err("Failed to get aura(%d) context", q);
return rc;
}
npa_dump("============== aura=%d ===============\n", q);
npa_aura_dump(&rsp->aura);
}
return rc;
}
int
roc_npa_dump(void)
{
struct npa_lf *lf;
int aura_cnt = 0;
uint32_t i;
lf = idev_npa_obj_get();
if (lf == NULL)
return NPA_ERR_DEVICE_NOT_BOUNDED;
for (i = 0; i < lf->nr_pools; i++) {
if (plt_bitmap_get(lf->npa_bmp, i))
continue;
aura_cnt++;
}
npa_dump("npa@%p", lf);
npa_dump(" pf = %d", dev_get_pf(lf->pf_func));
npa_dump(" vf = %d", dev_get_vf(lf->pf_func));
npa_dump(" aura_cnt = %d", aura_cnt);
npa_dump(" \tpci_dev = %p", lf->pci_dev);
npa_dump(" \tnpa_bmp = %p", lf->npa_bmp);
npa_dump(" \tnpa_bmp_mem = %p", lf->npa_bmp_mem);
npa_dump(" \tnpa_qint_mem = %p", lf->npa_qint_mem);
npa_dump(" \tintr_handle = %p", lf->intr_handle);
npa_dump(" \tmbox = %p", lf->mbox);
npa_dump(" \tbase = 0x%" PRIx64 "", lf->base);
npa_dump(" \tstack_pg_ptrs = %d", lf->stack_pg_ptrs);
npa_dump(" \tstack_pg_bytes = %d", lf->stack_pg_bytes);
npa_dump(" \tnpa_msixoff = 0x%x", lf->npa_msixoff);
npa_dump(" \tnr_pools = %d", lf->nr_pools);
npa_dump(" \tpf_func = 0x%x", lf->pf_func);
npa_dump(" \taura_sz = %d", lf->aura_sz);
npa_dump(" \tqints = %d", lf->qints);
return 0;
}