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/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2017 Cavium, Inc
*/
#include <stdbool.h>
#include <string.h>
#include <stdio.h>
#include <rte_eal.h>
#include <rte_cycles.h>
#include <rte_malloc.h>
#include <rte_memory.h>
#include <rte_bus_pci.h>
#include <rte_spinlock.h>
#include "../octeontx_logs.h"
#include "octeontx_io.h"
#include "octeontx_pkovf.h"
struct octeontx_pko_iomem {
uint8_t *va;
rte_iova_t iova;
size_t size;
};
#define PKO_IOMEM_NULL (struct octeontx_pko_iomem){0, 0, 0}
struct octeontx_pko_fc_ctl_s {
int64_t buf_cnt;
int64_t padding[(PKO_DQ_FC_STRIDE / 8) - 1];
};
struct octeontx_pkovf {
uint8_t *bar0;
uint8_t *bar2;
uint16_t domain;
uint16_t vfid;
};
struct octeontx_pko_vf_ctl_s {
rte_spinlock_t lock;
struct octeontx_pko_iomem fc_iomem;
struct octeontx_pko_fc_ctl_s *fc_ctl;
struct octeontx_pkovf pko[PKO_VF_MAX];
struct {
uint64_t chanid;
} dq_map[PKO_VF_MAX * PKO_VF_NUM_DQ];
};
static struct octeontx_pko_vf_ctl_s pko_vf_ctl;
static void *
octeontx_pko_dq_vf_bar0(uint16_t txq)
{
int vf_ix;
vf_ix = txq / PKO_VF_NUM_DQ;
return pko_vf_ctl.pko[vf_ix].bar0;
}
static int
octeontx_pko_dq_gdq(uint16_t txq)
{
return txq % PKO_VF_NUM_DQ;
}
/**
* Open a PKO DQ.
*/
static inline
int octeontx_pko_dq_open(uint16_t txq)
{
unsigned int reg_off;
uint8_t *vf_bar0;
uint64_t rtn;
int gdq;
vf_bar0 = octeontx_pko_dq_vf_bar0(txq);
gdq = octeontx_pko_dq_gdq(txq);
if (unlikely(gdq < 0 || vf_bar0 == NULL))
return -EINVAL;
*(volatile int64_t*)(pko_vf_ctl.fc_ctl + txq) =
PKO_DQ_FC_DEPTH_PAGES - PKO_DQ_FC_SKID;
rte_wmb();
octeontx_write64(PKO_DQ_FC_DEPTH_PAGES,
vf_bar0 + PKO_VF_DQ_FC_STATUS(gdq));
/* Set the register to return descriptor (packet) count as DEPTH */
/* KIND=1, NCB_QUERY_RSP=0 */
octeontx_write64(1ull << PKO_DQ_KIND_BIT,
vf_bar0 + PKO_VF_DQ_WM_CTL(gdq));
reg_off = PKO_VF_DQ_OP_OPEN(gdq);
rtn = octeontx_reg_ldadd_u64(vf_bar0 + reg_off, 0);
/* PKO_DQOP_E::OPEN */
if (((rtn >> PKO_DQ_OP_BIT) & 0x3) != 0x1)
return -EIO;
switch (rtn >> PKO_DQ_STATUS_BIT) {
case 0xC: /* DQALREADYCREATED */
case 0x0: /* PASS */
break;
default:
return -EIO;
}
/* DRAIN=0, DRAIN_NULL_LINK=0, SW_XOFF=0 */
octeontx_write64(0, vf_bar0 + PKO_VF_DQ_SW_XOFF(gdq));
return rtn & ((1ull << PKO_DQ_OP_BIT) - 1);
}
/**
* Close a PKO DQ
* Flush all packets pending.
*/
static inline
int octeontx_pko_dq_close(uint16_t txq)
{
unsigned int reg_off;
uint8_t *vf_bar0;
uint64_t rtn;
int res;
vf_bar0 = octeontx_pko_dq_vf_bar0(txq);
res = octeontx_pko_dq_gdq(txq);
if (unlikely(res < 0 || vf_bar0 == NULL))
return -EINVAL;
reg_off = PKO_VF_DQ_OP_CLOSE(res);
rtn = octeontx_reg_ldadd_u64(vf_bar0 + reg_off, 0);
/* PKO_DQOP_E::CLOSE */
if (((rtn >> PKO_DQ_OP_BIT) & 0x3) != 0x2)
return -EIO;
switch (rtn >> PKO_DQ_STATUS_BIT) {
case 0xD: /* DQNOTCREATED */
case 0x0: /* PASS */
break;
default:
return -EIO;
}
res = rtn & ((1ull << PKO_DQ_OP_BIT) - 1); /* DEPTH */
return res;
}
/* Flush all packets pending on a DQ */
static inline
int octeontx_pko_dq_drain(uint16_t txq)
{
unsigned int gdq;
uint8_t *vf_bar0;
uint64_t reg;
int res, timo = PKO_DQ_DRAIN_TO;
vf_bar0 = octeontx_pko_dq_vf_bar0(txq);
res = octeontx_pko_dq_gdq(txq);
gdq = res;
/* DRAIN=1, DRAIN_NULL_LINK=0, SW_XOFF=1 */
octeontx_write64(0x3, vf_bar0 + PKO_VF_DQ_SW_XOFF(gdq));
/* Wait until buffers leave DQs */
reg = octeontx_read64(vf_bar0 + PKO_VF_DQ_WM_CNT(gdq));
while (reg && timo > 0) {
rte_delay_us(100);
timo--;
reg = octeontx_read64(vf_bar0 + PKO_VF_DQ_WM_CNT(gdq));
}
/* DRAIN=0, DRAIN_NULL_LINK=0, SW_XOFF=0 */
octeontx_write64(0, vf_bar0 + PKO_VF_DQ_SW_XOFF(gdq));
return reg;
}
static inline int
octeontx_pko_dq_range_lookup(struct octeontx_pko_vf_ctl_s *ctl, uint64_t chanid,
unsigned int dq_num, unsigned int dq_from)
{
unsigned int dq, dq_cnt;
unsigned int dq_base;
dq_cnt = 0;
dq = dq_from;
while (dq < RTE_DIM(ctl->dq_map)) {
dq_base = dq;
dq_cnt = 0;
while (ctl->dq_map[dq].chanid == ~chanid &&
dq < RTE_DIM(ctl->dq_map)) {
dq_cnt++;
if (dq_cnt == dq_num)
return dq_base;
dq++;
}
dq++;
}
return -1;
}
static inline void
octeontx_pko_dq_range_assign(struct octeontx_pko_vf_ctl_s *ctl, uint64_t chanid,
unsigned int dq_base, unsigned int dq_num)
{
unsigned int dq, dq_cnt;
dq_cnt = 0;
while (dq_cnt < dq_num) {
dq = dq_base + dq_cnt;
octeontx_log_dbg("DQ# %u assigned to CHAN# %" PRIx64 "", dq,
chanid);
ctl->dq_map[dq].chanid = ~chanid;
dq_cnt++;
}
}
static inline int
octeontx_pko_dq_claim(struct octeontx_pko_vf_ctl_s *ctl, unsigned int dq_base,
unsigned int dq_num, uint64_t chanid)
{
const uint64_t null_chanid = ~0ull;
int dq;
rte_spinlock_lock(&ctl->lock);
dq = octeontx_pko_dq_range_lookup(ctl, null_chanid, dq_num, dq_base);
if (dq < 0 || (unsigned int)dq != dq_base) {
rte_spinlock_unlock(&ctl->lock);
return -1;
}
octeontx_pko_dq_range_assign(ctl, chanid, dq_base, dq_num);
rte_spinlock_unlock(&ctl->lock);
return 0;
}
static inline int
octeontx_pko_dq_free(struct octeontx_pko_vf_ctl_s *ctl, uint64_t chanid)
{
const uint64_t null_chanid = ~0ull;
unsigned int dq = 0, dq_cnt = 0;
rte_spinlock_lock(&ctl->lock);
while (dq < RTE_DIM(ctl->dq_map)) {
if (ctl->dq_map[dq].chanid == ~chanid) {
ctl->dq_map[dq].chanid = ~null_chanid;
dq_cnt++;
}
dq++;
}
rte_spinlock_unlock(&ctl->lock);
return dq_cnt > 0 ? 0 : -EINVAL;
}
int
octeontx_pko_channel_open(int dq_base, int dq_num, int chanid)
{
struct octeontx_pko_vf_ctl_s *ctl = &pko_vf_ctl;
int res;
res = octeontx_pko_dq_claim(ctl, dq_base, dq_num, chanid);
if (res < 0)
return -1;
return 0;
}
int
octeontx_pko_channel_close(int chanid)
{
struct octeontx_pko_vf_ctl_s *ctl = &pko_vf_ctl;
int res;
res = octeontx_pko_dq_free(ctl, chanid);
if (res < 0)
return -1;
return 0;
}
static inline int
octeontx_pko_chan_start(struct octeontx_pko_vf_ctl_s *ctl, uint64_t chanid)
{
unsigned int dq_vf;
unsigned int dq, dq_cnt;
dq_cnt = 0;
dq = 0;
while (dq < RTE_DIM(ctl->dq_map)) {
dq_vf = dq / PKO_VF_NUM_DQ;
if (!ctl->pko[dq_vf].bar0) {
dq += PKO_VF_NUM_DQ;
continue;
}
if (ctl->dq_map[dq].chanid != ~chanid) {
dq++;
continue;
}
if (octeontx_pko_dq_open(dq) < 0)
break;
dq_cnt++;
dq++;
}
return dq_cnt;
}
int
octeontx_pko_channel_start(int chanid)
{
struct octeontx_pko_vf_ctl_s *ctl = &pko_vf_ctl;
int dq_cnt;
dq_cnt = octeontx_pko_chan_start(ctl, chanid);
if (dq_cnt < 0)
return -1;
return dq_cnt;
}
static inline int
octeontx_pko_chan_stop(struct octeontx_pko_vf_ctl_s *ctl, uint64_t chanid)
{
unsigned int dq, dq_cnt, dq_vf;
int res;
dq_cnt = 0;
dq = 0;
while (dq < RTE_DIM(ctl->dq_map)) {
dq_vf = dq / PKO_VF_NUM_DQ;
if (!ctl->pko[dq_vf].bar0) {
dq += PKO_VF_NUM_DQ;
continue;
}
if (ctl->dq_map[dq].chanid != ~chanid) {
dq++;
continue;
}
res = octeontx_pko_dq_drain(dq);
if (res > 0)
octeontx_log_err("draining DQ%d, buffers left: %x",
dq, res);
res = octeontx_pko_dq_close(dq);
if (res < 0)
octeontx_log_err("closing DQ%d failed\n", dq);
dq_cnt++;
dq++;
}
return dq_cnt;
}
int
octeontx_pko_channel_stop(int chanid)
{
struct octeontx_pko_vf_ctl_s *ctl = &pko_vf_ctl;
octeontx_pko_chan_stop(ctl, chanid);
return 0;
}
static inline int
octeontx_pko_channel_query(struct octeontx_pko_vf_ctl_s *ctl, uint64_t chanid,
void *out, size_t out_elem_size,
size_t dq_num, octeontx_pko_dq_getter_t getter)
{
octeontx_dq_t curr;
unsigned int dq_vf;
unsigned int dq;
RTE_SET_USED(out_elem_size);
memset(&curr, 0, sizeof(octeontx_dq_t));
dq_vf = dq_num / PKO_VF_NUM_DQ;
dq = dq_num % PKO_VF_NUM_DQ;
if (!ctl->pko[dq_vf].bar0)
return -EINVAL;
if (ctl->dq_map[dq_num].chanid != ~chanid)
return -EINVAL;
uint8_t *iter = (uint8_t *)out;
curr.lmtline_va = ctl->pko[dq_vf].bar2;
curr.ioreg_va = (void *)((uintptr_t)ctl->pko[dq_vf].bar0
+ PKO_VF_DQ_OP_SEND((dq), 0));
curr.fc_status_va = ctl->fc_ctl + dq;
octeontx_log_dbg("lmtline=%p ioreg_va=%p fc_status_va=%p",
curr.lmtline_va, curr.ioreg_va,
curr.fc_status_va);
getter(&curr, (void *)iter);
return 0;
}
int
octeontx_pko_channel_query_dqs(int chanid, void *out, size_t out_elem_size,
size_t dq_num, octeontx_pko_dq_getter_t getter)
{
struct octeontx_pko_vf_ctl_s *ctl = &pko_vf_ctl;
int dq_cnt;
dq_cnt = octeontx_pko_channel_query(ctl, chanid, out, out_elem_size,
dq_num, getter);
if (dq_cnt < 0)
return -1;
return dq_cnt;
}
int
octeontx_pko_vf_count(void)
{
int vf_cnt;
vf_cnt = 0;
while (pko_vf_ctl.pko[vf_cnt].bar0)
vf_cnt++;
return vf_cnt;
}
int
octeontx_pko_init_fc(const size_t pko_vf_count)
{
int dq_ix;
uint64_t reg;
uint8_t *vf_bar0;
size_t vf_idx;
size_t fc_mem_size;
fc_mem_size = sizeof(struct octeontx_pko_fc_ctl_s) *
pko_vf_count * PKO_VF_NUM_DQ;
pko_vf_ctl.fc_iomem.va = rte_malloc(NULL, fc_mem_size, 128);
if (unlikely(!pko_vf_ctl.fc_iomem.va)) {
octeontx_log_err("fc_iomem: not enough memory");
return -ENOMEM;
}
pko_vf_ctl.fc_iomem.iova = rte_malloc_virt2iova((void *)
pko_vf_ctl.fc_iomem.va);
pko_vf_ctl.fc_iomem.size = fc_mem_size;
pko_vf_ctl.fc_ctl =
(struct octeontx_pko_fc_ctl_s *)pko_vf_ctl.fc_iomem.va;
/* Configure Flow-Control feature for all DQs of open VFs */
for (vf_idx = 0; vf_idx < pko_vf_count; vf_idx++) {
dq_ix = vf_idx * PKO_VF_NUM_DQ;
vf_bar0 = pko_vf_ctl.pko[vf_idx].bar0;
reg = (pko_vf_ctl.fc_iomem.iova +
(sizeof(struct octeontx_pko_fc_ctl_s) * dq_ix)) & ~0x7F;
reg |= /* BASE */
(0x2 << 3) | /* HYST_BITS */
(((PKO_DQ_FC_STRIDE == PKO_DQ_FC_STRIDE_16) ? 1 : 0) << 2) |
(0x1 << 0); /* ENABLE */
octeontx_write64(reg, vf_bar0 + PKO_VF_DQ_FC_CONFIG);
octeontx_log_dbg("PKO: bar0 %p VF_idx %d DQ_FC_CFG=%" PRIx64 "",
vf_bar0, (int)vf_idx, reg);
}
return 0;
}
void
octeontx_pko_fc_free(void)
{
rte_free(pko_vf_ctl.fc_iomem.va);
}
static void
octeontx_pkovf_setup(void)
{
static bool init_once;
if (!init_once) {
unsigned int i;
rte_spinlock_init(&pko_vf_ctl.lock);
pko_vf_ctl.fc_iomem = PKO_IOMEM_NULL;
pko_vf_ctl.fc_ctl = NULL;
for (i = 0; i < PKO_VF_MAX; i++) {
pko_vf_ctl.pko[i].bar0 = NULL;
pko_vf_ctl.pko[i].bar2 = NULL;
pko_vf_ctl.pko[i].domain = ~(uint16_t)0;
pko_vf_ctl.pko[i].vfid = ~(uint16_t)0;
}
for (i = 0; i < (PKO_VF_MAX * PKO_VF_NUM_DQ); i++)
pko_vf_ctl.dq_map[i].chanid = 0;
init_once = true;
}
}
/* PKOVF pcie device*/
static int
pkovf_probe(struct rte_pci_driver *pci_drv, struct rte_pci_device *pci_dev)
{
uint64_t val;
uint16_t vfid;
uint16_t domain;
uint8_t *bar0;
uint8_t *bar2;
struct octeontx_pkovf *res;
RTE_SET_USED(pci_drv);
/* For secondary processes, the primary has done all the work */
if (rte_eal_process_type() != RTE_PROC_PRIMARY)
return 0;
if (pci_dev->mem_resource[0].addr == NULL ||
pci_dev->mem_resource[2].addr == NULL) {
octeontx_log_err("Empty bars %p %p",
pci_dev->mem_resource[0].addr,
pci_dev->mem_resource[2].addr);
return -ENODEV;
}
bar0 = pci_dev->mem_resource[0].addr;
bar2 = pci_dev->mem_resource[2].addr;
octeontx_pkovf_setup();
/* get vfid and domain */
val = octeontx_read64(bar0 + PKO_VF_DQ_FC_CONFIG);
domain = (val >> 7) & 0xffff;
vfid = (val >> 23) & 0xffff;
if (unlikely(vfid >= PKO_VF_MAX)) {
octeontx_log_err("pko: Invalid vfid %d", vfid);
return -EINVAL;
}
res = &pko_vf_ctl.pko[vfid];
res->vfid = vfid;
res->domain = domain;
res->bar0 = bar0;
res->bar2 = bar2;
octeontx_log_dbg("Domain=%d group=%d", res->domain, res->vfid);
return 0;
}
#define PCI_VENDOR_ID_CAVIUM 0x177D
#define PCI_DEVICE_ID_OCTEONTX_PKO_VF 0xA049
static const struct rte_pci_id pci_pkovf_map[] = {
{
RTE_PCI_DEVICE(PCI_VENDOR_ID_CAVIUM,
PCI_DEVICE_ID_OCTEONTX_PKO_VF)
},
{
.vendor_id = 0,
},
};
static struct rte_pci_driver pci_pkovf = {
.id_table = pci_pkovf_map,
.drv_flags = RTE_PCI_DRV_NEED_MAPPING,
.probe = pkovf_probe,
};
RTE_PMD_REGISTER_PCI(octeontx_pkovf, pci_pkovf);
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