u-boot/arch/mips/mach-octeon/cvmx-fpa.c

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// SPDX-License-Identifier: GPL-2.0
/*
* Copyright (C) 2018-2022 Marvell International Ltd.
*
* Support library for the hardware Free Pool Allocator.
*/
#include <errno.h>
#include <log.h>
#include <time.h>
#include <linux/delay.h>
#include <mach/cvmx-regs.h>
#include <mach/cvmx-csr.h>
#include <mach/cvmx-bootmem.h>
#include <mach/octeon-model.h>
#include <mach/cvmx-fuse.h>
#include <mach/octeon-feature.h>
#include <mach/cvmx-qlm.h>
#include <mach/octeon_qlm.h>
#include <mach/cvmx-pcie.h>
#include <mach/cvmx-coremask.h>
#include <mach/cvmx-range.h>
#include <mach/cvmx-global-resources.h>
#include <mach/cvmx-agl-defs.h>
#include <mach/cvmx-bgxx-defs.h>
#include <mach/cvmx-ciu-defs.h>
#include <mach/cvmx-gmxx-defs.h>
#include <mach/cvmx-gserx-defs.h>
#include <mach/cvmx-ilk-defs.h>
#include <mach/cvmx-ipd-defs.h>
#include <mach/cvmx-pcsx-defs.h>
#include <mach/cvmx-pcsxx-defs.h>
#include <mach/cvmx-pki-defs.h>
#include <mach/cvmx-pko-defs.h>
#include <mach/cvmx-xcv-defs.h>
#include <mach/cvmx-hwpko.h>
#include <mach/cvmx-ilk.h>
#include <mach/cvmx-pki.h>
#include <mach/cvmx-pko3.h>
#include <mach/cvmx-pko3-queue.h>
#include <mach/cvmx-pko3-resources.h>
#include <mach/cvmx-helper.h>
#include <mach/cvmx-helper-board.h>
#include <mach/cvmx-helper-cfg.h>
#include <mach/cvmx-helper-bgx.h>
#include <mach/cvmx-helper-cfg.h>
#include <mach/cvmx-helper-util.h>
#include <mach/cvmx-helper-pki.h>
static const int debug;
/* Due to suspected errata, we may not be able to let the FPA_AURAX_CNT
* get too close to 0, to avoid a spurious wrap-around error
*/
const unsigned int __cvmx_fpa3_cnt_offset = 32;
/* For advanced checks, a guard-band is created around the internal
* stack, to make sure the stack is not overwritten.
*/
const u64 magic_pattern = 0xbab4faced095f00d;
const unsigned int guard_band_size = 0 << 10; /* 1KiB default*/
#define CVMX_CACHE_LINE_SHIFT (7)
#define CVMX_FPA3_NAME_LEN (16)
typedef struct {
char name[CVMX_FPA3_NAME_LEN];
u64 stack_paddr; /* Internal stack storage */
u64 bufs_paddr; /* Buffer pool base address */
u64 stack_psize; /* Internal stack storage size */
u64 bufs_psize; /* Buffer pool raw size */
u64 buf_count; /* Number of buffer filled */
u64 buf_size; /* Buffer size */
} cvmx_fpa3_poolx_info_t;
typedef struct {
char name[CVMX_FPA3_NAME_LEN];
unsigned int buf_size; /* Buffer size */
} cvmx_fpa3_aurax_info_t;
typedef struct {
char name[CVMX_FPA1_NAME_SIZE];
u64 size; /* Block size of pool buffers */
u64 buffer_count;
u64 base_paddr; /* Base physical addr */
/* if buffer is allocated at initialization */
} cvmx_fpa1_pool_info_t;
/**
* FPA1/FPA3 info structure is stored in a named block
* that is allocated once and shared among applications.
*/
static cvmx_fpa1_pool_info_t *cvmx_fpa1_pool_info;
static cvmx_fpa3_poolx_info_t *cvmx_fpa3_pool_info[CVMX_MAX_NODES];
static cvmx_fpa3_aurax_info_t *cvmx_fpa3_aura_info[CVMX_MAX_NODES];
/**
* Return the size of buffers held in a POOL
*
* @param pool is the POOL handle
* @return buffer size in bytes
*
*/
int cvmx_fpa3_get_pool_buf_size(cvmx_fpa3_pool_t pool)
{
cvmx_fpa_poolx_cfg_t pool_cfg;
if (!__cvmx_fpa3_pool_valid(pool))
return -1;
pool_cfg.u64 = csr_rd_node(pool.node, CVMX_FPA_POOLX_CFG(pool.lpool));
return pool_cfg.cn78xx.buf_size << CVMX_CACHE_LINE_SHIFT;
}
/**
* Return the size of buffers held in a buffer pool
*
* @param pool is the pool number
*
* This function will work with CN78XX models in backward-compatible mode
*/
unsigned int cvmx_fpa_get_block_size(int pool)
{
if (octeon_has_feature(OCTEON_FEATURE_FPA3)) {
return cvmx_fpa3_get_pool_buf_size(cvmx_fpa3_aura_to_pool(
cvmx_fpa1_pool_to_fpa3_aura(pool)));
} else {
if ((unsigned int)pool >= CVMX_FPA1_NUM_POOLS)
return 0;
if (!cvmx_fpa1_pool_info)
cvmx_fpa_global_init_node(0);
return cvmx_fpa1_pool_info[pool].size;
}
}
static void cvmx_fpa3_set_aura_name(cvmx_fpa3_gaura_t aura, const char *name)
{
cvmx_fpa3_aurax_info_t *pinfo;
pinfo = cvmx_fpa3_aura_info[aura.node];
if (!pinfo)
return;
pinfo += aura.laura;
memset(pinfo->name, 0, sizeof(pinfo->name));
if (name)
strlcpy(pinfo->name, name, sizeof(pinfo->name));
}
static void cvmx_fpa3_set_pool_name(cvmx_fpa3_pool_t pool, const char *name)
{
cvmx_fpa3_poolx_info_t *pinfo;
pinfo = cvmx_fpa3_pool_info[pool.node];
if (!pinfo)
return;
pinfo += pool.lpool;
memset(pinfo->name, 0, sizeof(pinfo->name));
if (name)
strlcpy(pinfo->name, name, sizeof(pinfo->name));
}
static void cvmx_fpa_set_name(int pool_num, const char *name)
{
if (octeon_has_feature(OCTEON_FEATURE_FPA3)) {
cvmx_fpa3_set_aura_name(cvmx_fpa1_pool_to_fpa3_aura(pool_num),
name);
} else {
cvmx_fpa1_pool_info_t *pinfo;
if ((unsigned int)pool_num >= CVMX_FPA1_NUM_POOLS)
return;
if (!cvmx_fpa1_pool_info)
cvmx_fpa_global_init_node(0);
pinfo = &cvmx_fpa1_pool_info[pool_num];
memset(pinfo->name, 0, sizeof(pinfo->name));
if (name)
strlcpy(pinfo->name, name, sizeof(pinfo->name));
}
}
static int cvmx_fpa3_aura_cfg(cvmx_fpa3_gaura_t aura, cvmx_fpa3_pool_t pool,
u64 limit, u64 threshold, int ptr_dis)
{
cvmx_fpa3_aurax_info_t *pinfo;
cvmx_fpa_aurax_cfg_t aura_cfg;
cvmx_fpa_poolx_cfg_t pool_cfg;
cvmx_fpa_aurax_cnt_t cnt_reg;
cvmx_fpa_aurax_cnt_limit_t limit_reg;
cvmx_fpa_aurax_cnt_threshold_t thresh_reg;
cvmx_fpa_aurax_int_t int_reg;
unsigned int block_size;
if (debug)
debug("%s: AURA %u:%u POOL %u:%u\n", __func__, aura.node,
aura.laura, pool.node, pool.lpool);
if (aura.node != pool.node) {
printf("ERROR: %s: AURA/POOL node mismatch\n", __func__);
return -1;
}
if (!__cvmx_fpa3_aura_valid(aura)) {
printf("ERROR: %s: AURA invalid\n", __func__);
return -1;
}
if (!__cvmx_fpa3_pool_valid(pool)) {
printf("ERROR: %s: POOL invalid\n", __func__);
return -1;
}
/* Record POOL block size in AURA info entry */
pool_cfg.u64 = csr_rd_node(pool.node, CVMX_FPA_POOLX_CFG(pool.lpool));
block_size = pool_cfg.cn78xx.buf_size << 7;
pinfo = cvmx_fpa3_aura_info[aura.node];
if (!pinfo)
return -1;
pinfo += aura.laura;
pinfo->buf_size = block_size;
/* block_size should be >0 except for POOL=0 which is never enabled*/
if (pool_cfg.cn78xx.ena && block_size == 0) {
printf("ERROR; %s: POOL buf_size invalid\n", __func__);
return -1;
}
/* Initialize AURA count, limit and threshold registers */
cnt_reg.u64 = 0;
cnt_reg.cn78xx.cnt = 0 + __cvmx_fpa3_cnt_offset;
limit_reg.u64 = 0;
limit_reg.cn78xx.limit = limit;
/* Apply count offset, unless it cases a wrap-around */
if ((limit + __cvmx_fpa3_cnt_offset) < CVMX_FPA3_AURAX_LIMIT_MAX)
limit_reg.cn78xx.limit += __cvmx_fpa3_cnt_offset;
thresh_reg.u64 = 0;
thresh_reg.cn78xx.thresh = threshold;
/* Apply count offset, unless it cases a wrap-around */
if ((threshold + __cvmx_fpa3_cnt_offset) < CVMX_FPA3_AURAX_LIMIT_MAX)
thresh_reg.cn78xx.thresh += __cvmx_fpa3_cnt_offset;
csr_wr_node(aura.node, CVMX_FPA_AURAX_CNT(aura.laura), cnt_reg.u64);
csr_wr_node(aura.node, CVMX_FPA_AURAX_CNT_LIMIT(aura.laura),
limit_reg.u64);
csr_wr_node(aura.node, CVMX_FPA_AURAX_CNT_THRESHOLD(aura.laura),
thresh_reg.u64);
/* Clear any pending error interrupts */
int_reg.u64 = 0;
int_reg.cn78xx.thresh = 1;
/* Follow a write to clear FPA_AURAX_INT[THRESH] with a read as
* a workaround to Errata FPA-23410. If FPA_AURAX_INT[THRESH]
* isn't clear, try again.
*/
do {
csr_wr_node(aura.node, CVMX_FPA_AURAX_INT(aura.laura),
int_reg.u64);
int_reg.u64 =
csr_rd_node(aura.node, CVMX_FPA_AURAX_INT(aura.laura));
} while (int_reg.s.thresh);
/* Disable backpressure etc.*/
csr_wr_node(aura.node, CVMX_FPA_AURAX_CNT_LEVELS(aura.laura), 0);
csr_wr_node(aura.node, CVMX_FPA_AURAX_POOL_LEVELS(aura.laura), 0);
aura_cfg.u64 = 0;
aura_cfg.s.ptr_dis = ptr_dis;
csr_wr_node(aura.node, CVMX_FPA_AURAX_CFG(aura.laura), aura_cfg.u64);
csr_wr_node(aura.node, CVMX_FPA_AURAX_POOL(aura.laura), pool.lpool);
return 0;
}
/**
* @INTERNAL
*
* Fill a newly created FPA3 POOL with buffers
* using a temporary AURA.
*/
static int cvmx_fpa3_pool_populate(cvmx_fpa3_pool_t pool, unsigned int buf_cnt,
unsigned int buf_sz, void *mem_ptr,
unsigned int mem_node)
{
cvmx_fpa3_poolx_info_t *pinfo;
cvmx_fpa3_gaura_t aura;
cvmx_fpa3_pool_t zero_pool;
cvmx_fpa_poolx_cfg_t pool_cfg;
cvmx_fpa_poolx_start_addr_t pool_start_reg;
cvmx_fpa_poolx_end_addr_t pool_end_reg;
cvmx_fpa_poolx_available_t avail_reg;
cvmx_fpa_poolx_threshold_t thresh_reg;
cvmx_fpa_poolx_int_t int_reg;
unsigned int block_size, align;
unsigned long long mem_size;
u64 paddr;
unsigned int i;
if (debug)
debug("%s: POOL %u:%u buf_sz=%u count=%d\n", __func__,
pool.node, pool.lpool, buf_sz, buf_cnt);
if (!__cvmx_fpa3_pool_valid(pool))
return -1;
zero_pool = __cvmx_fpa3_pool(pool.node, 0);
pool_cfg.u64 = csr_rd_node(pool.node, CVMX_FPA_POOLX_CFG(pool.lpool));
block_size = pool_cfg.cn78xx.buf_size << 7;
if (pool_cfg.cn78xx.nat_align) {
/* Assure block_size is legit */
if (block_size > (1 << 17)) {
printf("ERROR: %s: POOL %u:%u block size %u is not valid\n",
__func__, pool.node, pool.lpool, block_size);
return -1;
}
}
align = CVMX_CACHE_LINE_SIZE;
pinfo = cvmx_fpa3_pool_info[pool.node];
if (!pinfo)
return -1;
pinfo += pool.lpool;
if (pinfo->buf_size != block_size || block_size != buf_sz) {
printf("ERROR: %s: POOL %u:%u buffer size mismatch\n", __func__,
pool.node, pool.lpool);
return -1;
}
if (!mem_ptr) {
/* When allocating our own memory
* make sure at least 'buf_cnt' blocks
* will fit into it.
*/
mem_size = (long long)buf_cnt * block_size + (block_size - 128);
mem_ptr = cvmx_helper_mem_alloc(mem_node, mem_size, align);
if (!mem_ptr) {
printf("ERROR: %s: POOL %u:%u out of memory, could not allocate %llu bytes\n",
__func__, pool.node, pool.lpool, mem_size);
return -1;
}
/* Record memory base for use in shutdown */
pinfo->bufs_paddr = cvmx_ptr_to_phys(mem_ptr);
} else {
/* caller-allocated memory is sized simply, may reduce count */
mem_size = (long long)buf_cnt * block_size;
/* caller responsable to free this memory too */
}
/* Recalculate buf_cnt after possible alignment adjustment */
buf_cnt = mem_size / block_size;
/* Get temporary AURA */
aura = cvmx_fpa3_reserve_aura(pool.node, -1);
if (!__cvmx_fpa3_aura_valid(aura))
return -1;
/* Attach the temporary AURA to the POOL */
(void)cvmx_fpa3_aura_cfg(aura, pool, buf_cnt, buf_cnt + 1, 0);
/* Set AURA count to buffer count to avoid wrap-around */
csr_wr_node(aura.node, CVMX_FPA_AURAX_CNT(aura.laura), buf_cnt);
/* Set POOL threshold just above buf count so it does not misfire */
thresh_reg.u64 = 0;
thresh_reg.cn78xx.thresh = buf_cnt + 1;
csr_wr_node(pool.node, CVMX_FPA_POOLX_THRESHOLD(pool.lpool),
thresh_reg.u64);
/* Set buffer memory region bounds checking */
paddr = (cvmx_ptr_to_phys(mem_ptr) >> 7) << 7;
pool_start_reg.u64 = 0;
pool_end_reg.u64 = 0;
pool_start_reg.cn78xx.addr = paddr >> 7;
pool_end_reg.cn78xx.addr = (paddr + mem_size + 127) >> 7;
csr_wr_node(pool.node, CVMX_FPA_POOLX_START_ADDR(pool.lpool),
pool_start_reg.u64);
csr_wr_node(pool.node, CVMX_FPA_POOLX_END_ADDR(pool.lpool),
pool_end_reg.u64);
/* Make sure 'paddr' is divisible by 'block_size' */
i = (paddr % block_size);
if (i > 0) {
i = block_size - i;
paddr += i;
mem_size -= i;
}
/* The above alignment mimics how the FPA3 hardware
* aligns pointers to the buffer size, which only
* needs to be multiple of cache line size
*/
if (debug && paddr != cvmx_ptr_to_phys(mem_ptr))
debug("%s: pool mem paddr %#llx adjusted to %#llx for block size %#x\n",
__func__, CAST_ULL(cvmx_ptr_to_phys(mem_ptr)),
CAST_ULL(paddr), block_size);
for (i = 0; i < buf_cnt; i++) {
void *ptr = cvmx_phys_to_ptr(paddr);
cvmx_fpa3_free_nosync(ptr, aura, 0);
paddr += block_size;
if ((paddr + block_size - 1) >= (paddr + mem_size))
break;
}
if (debug && i < buf_cnt) {
debug("%s: buffer count reduced from %u to %u\n", __func__,
buf_cnt, i);
buf_cnt = i;
}
/* Wait for all buffers to reach the POOL before removing temp AURA */
do {
CVMX_SYNC;
avail_reg.u64 = csr_rd_node(
pool.node, CVMX_FPA_POOLX_AVAILABLE(pool.lpool));
} while (avail_reg.cn78xx.count < buf_cnt);
/* Detach the temporary AURA */
(void)cvmx_fpa3_aura_cfg(aura, zero_pool, 0, 0, 0);
/* Release temporary AURA */
(void)cvmx_fpa3_release_aura(aura);
/* Clear all POOL interrupts */
int_reg.u64 = 0;
int_reg.cn78xx.ovfls = 1;
int_reg.cn78xx.crcerr = 1;
int_reg.cn78xx.range = 1;
int_reg.cn78xx.thresh = 1;
csr_wr_node(pool.node, CVMX_FPA_POOLX_INT(pool.lpool), int_reg.u64);
/* Record buffer count for shutdown */
pinfo->buf_count = buf_cnt;
return buf_cnt;
}
/**
* @INTERNAL
*
* Fill a legacy FPA pool with buffers
*/
static int cvmx_fpa1_fill_pool(cvmx_fpa1_pool_t pool, int num_blocks,
void *buffer)
{
cvmx_fpa_poolx_start_addr_t pool_start_reg;
cvmx_fpa_poolx_end_addr_t pool_end_reg;
unsigned int block_size = cvmx_fpa_get_block_size(pool);
unsigned int mem_size;
char *bufp;
if ((unsigned int)pool >= CVMX_FPA1_NUM_POOLS)
return -1;
mem_size = block_size * num_blocks;
if (!buffer) {
buffer = cvmx_helper_mem_alloc(0, mem_size,
CVMX_CACHE_LINE_SIZE);
cvmx_fpa1_pool_info[pool].base_paddr = cvmx_ptr_to_phys(buffer);
} else {
/* Align user-supplied buffer to cache line size */
unsigned int off =
(CVMX_CACHE_LINE_SIZE - 1) & cvmx_ptr_to_phys(buffer);
if (off > 0) {
// buffer += CVMX_CACHE_LINE_SIZE - off;
buffer = (char *)buffer + CVMX_CACHE_LINE_SIZE - off;
mem_size -= CVMX_CACHE_LINE_SIZE - off;
num_blocks = mem_size / block_size;
}
}
if (debug)
debug("%s: memory at %p size %#x\n", __func__, buffer,
mem_size);
pool_start_reg.u64 = 0;
pool_end_reg.u64 = 0;
/* buffer pointer range checks are highly recommended, but optional */
pool_start_reg.cn61xx.addr = 1; /* catch NULL pointers */
pool_end_reg.cn61xx.addr = (1ull << (40 - 7)) - 1; /* max paddr */
if (!OCTEON_IS_MODEL(OCTEON_CN63XX)) {
csr_wr(CVMX_FPA_POOLX_START_ADDR(pool), pool_start_reg.u64);
csr_wr(CVMX_FPA_POOLX_END_ADDR(pool), pool_end_reg.u64);
}
bufp = (char *)buffer;
while (num_blocks--) {
cvmx_fpa1_free(bufp, pool, 0);
cvmx_fpa1_pool_info[pool].buffer_count++;
bufp += block_size;
}
return 0;
}
/**
* @INTERNAL
*
* Setup a legacy FPA pool
*/
static int cvmx_fpa1_pool_init(cvmx_fpa1_pool_t pool_id, int num_blocks,
int block_size, void *buffer)
{
int max_pool = cvmx_fpa_get_max_pools();
if (pool_id < 0 || pool_id >= max_pool) {
printf("ERROR: %s pool %d invalid\n", __func__, pool_id);
return -1;
}
if (!cvmx_fpa1_pool_info)
cvmx_fpa_global_init_node(0);
if (debug)
debug("%s: initializing info pool %d\n", __func__, pool_id);
cvmx_fpa1_pool_info[pool_id].size = block_size;
cvmx_fpa1_pool_info[pool_id].buffer_count = 0;
if (debug)
debug("%s: enabling unit for pool %d\n", __func__, pool_id);
return 0;
}
/**
* Initialize global configuration for FPA block for specified node.
*
* @param node is the node number
*
* @note this function sets the initial QoS averaging timing parameters,
* for the entire FPA unit (per node), which may be overridden on a
* per AURA basis.
*/
int cvmx_fpa_global_init_node(int node)
{
/* There are just the initial parameter values */
#define FPA_RED_AVG_DLY 1
#define FPA_RED_LVL_DLY 3
#define FPA_QOS_AVRG 0
/* Setting up avg_dly and prb_dly, enable bits */
if (octeon_has_feature(OCTEON_FEATURE_FPA3)) {
char pool_info_name[32] = "cvmx_fpa3_pools_";
char aura_info_name[32] = "cvmx_fpa3_auras_";
char ns[2] = "0";
ns[0] += node;
strcat(pool_info_name, ns);
strcat(aura_info_name, ns);
cvmx_fpa3_config_red_params(node, FPA_QOS_AVRG, FPA_RED_LVL_DLY,
FPA_RED_AVG_DLY);
/* Allocate the pinfo named block */
cvmx_fpa3_pool_info[node] = (cvmx_fpa3_poolx_info_t *)
cvmx_bootmem_alloc_named_range_once(
sizeof(cvmx_fpa3_pool_info[0][0]) *
cvmx_fpa3_num_pools(),
0, 0, 0, pool_info_name, NULL);
cvmx_fpa3_aura_info[node] = (cvmx_fpa3_aurax_info_t *)
cvmx_bootmem_alloc_named_range_once(
sizeof(cvmx_fpa3_aura_info[0][0]) *
cvmx_fpa3_num_auras(),
0, 0, 0, aura_info_name, NULL);
//XXX add allocation error check
/* Setup zero_pool on this node */
cvmx_fpa3_reserve_pool(node, 0);
cvmx_fpa3_pool_info[node][0].buf_count = 0;
} else {
char pool_info_name[32] = "cvmx_fpa_pool";
/* Allocate the pinfo named block */
cvmx_fpa1_pool_info = (cvmx_fpa1_pool_info_t *)
cvmx_bootmem_alloc_named_range_once(
sizeof(cvmx_fpa1_pool_info[0]) *
CVMX_FPA1_NUM_POOLS,
0, 0, 0, pool_info_name, NULL);
cvmx_fpa1_enable();
}
return 0;
}
static void __memset_u64(u64 *ptr, u64 pattern, unsigned int words)
{
while (words--)
*ptr++ = pattern;
}
/**
* @INTERNAL
* Initialize pool pointer-storage memory
*
* Unlike legacy FPA, which used free buffers to store pointers that
* exceed on-chip memory, FPA3 requires a dedicated memory buffer for
* free pointer stack back-store.
*
* @param pool - pool to initialize
* @param mem_node - if memory should be allocated from a different node
* @param max_buffer_cnt - maximum block capacity of pool
* @param align - buffer alignment mode,
* current FPA_NATURAL_ALIGNMENT is supported
* @param buffer_sz - size of buffers in pool
*/
static int cvmx_fpa3_pool_stack_init(cvmx_fpa3_pool_t pool,
unsigned int mem_node,
unsigned int max_buffer_cnt,
enum cvmx_fpa3_pool_alignment_e align,
unsigned int buffer_sz)
{
cvmx_fpa3_poolx_info_t *pinfo;
u64 stack_paddr;
void *mem_ptr;
unsigned int stack_memory_size;
cvmx_fpa_poolx_cfg_t pool_cfg;
cvmx_fpa_poolx_fpf_marks_t pool_fpf_marks;
if (debug)
debug("%s: POOL %u:%u bufsz=%u maxbuf=%u\n", __func__,
pool.node, pool.lpool, buffer_sz, max_buffer_cnt);
if (!__cvmx_fpa3_pool_valid(pool)) {
printf("ERROR: %s: POOL invalid\n", __func__);
return -1;
}
pinfo = cvmx_fpa3_pool_info[pool.node];
if (!pinfo) {
printf("ERROR: %s: FPA on node#%u is not initialized\n",
__func__, pool.node);
return -1;
}
pinfo += pool.lpool;
/* Calculate stack size based on buffer count with one line to spare */
stack_memory_size = (max_buffer_cnt * 128) / 29 + 128 + 127;
/* Increase stack size by band guard */
stack_memory_size += guard_band_size << 1;
/* Align size to cache line */
stack_memory_size = (stack_memory_size >> 7) << 7;
/* Allocate internal stack */
mem_ptr = cvmx_helper_mem_alloc(mem_node, stack_memory_size,
CVMX_CACHE_LINE_SIZE);
if (debug)
debug("%s: stack_mem=%u ptr=%p\n", __func__, stack_memory_size,
mem_ptr);
if (!mem_ptr) {
debug("ERROR: %sFailed to allocate stack for POOL %u:%u\n",
__func__, pool.node, pool.lpool);
return -1;
}
/* Initialize guard bands */
if (guard_band_size > 0) {
__memset_u64((u64 *)mem_ptr, magic_pattern,
guard_band_size >> 3);
__memset_u64((u64 *)((char *)mem_ptr + stack_memory_size -
guard_band_size),
magic_pattern, guard_band_size >> 3);
}
pinfo->stack_paddr = cvmx_ptr_to_phys(mem_ptr);
pinfo->stack_psize = stack_memory_size;
/* Calculate usable stack start */
stack_paddr = cvmx_ptr_to_phys((char *)mem_ptr + guard_band_size);
csr_wr_node(pool.node, CVMX_FPA_POOLX_STACK_BASE(pool.lpool),
stack_paddr);
csr_wr_node(pool.node, CVMX_FPA_POOLX_STACK_ADDR(pool.lpool),
stack_paddr);
/* Calculate usable stack end - start of last cache line */
stack_paddr = stack_paddr + stack_memory_size - (guard_band_size << 1);
csr_wr_node(pool.node, CVMX_FPA_POOLX_STACK_END(pool.lpool),
stack_paddr);
if (debug)
debug("%s: Stack paddr %#llx - %#llx\n", __func__,
CAST_ULL(csr_rd_node(pool.node, CVMX_FPA_POOLX_STACK_BASE(
pool.lpool))),
CAST_ULL(csr_rd_node(pool.node, CVMX_FPA_POOLX_STACK_END(
pool.lpool))));
/* Setup buffer size for this pool until it is shutdown */
pinfo->buf_size = buffer_sz;
pool_cfg.u64 = 0;
pool_cfg.cn78xx.buf_size = buffer_sz >> 7;
pool_cfg.cn78xx.l_type = 0x2;
pool_cfg.cn78xx.ena = 0;
if (align == FPA_NATURAL_ALIGNMENT)
pool_cfg.cn78xx.nat_align = 1;
/* FPA-26117, FPA-22443 */
pool_fpf_marks.u64 =
csr_rd_node(pool.node, CVMX_FPA_POOLX_FPF_MARKS(pool.lpool));
pool_fpf_marks.s.fpf_rd = 0x80;
csr_wr_node(pool.node, CVMX_FPA_POOLX_FPF_MARKS(pool.lpool),
pool_fpf_marks.u64);
csr_wr_node(pool.node, CVMX_FPA_POOLX_CFG(pool.lpool), pool_cfg.u64);
pool_cfg.cn78xx.ena = 1;
csr_wr_node(pool.node, CVMX_FPA_POOLX_CFG(pool.lpool), pool_cfg.u64);
/* Pool is now ready to be filled up */
return 0;
}
/**
* Create an FPA POOL and fill it up with buffers
*
* @param node is the node number for the pool and memory location
* @param desired_pool is the local pool number desired
* or -1 for first available
* @param name is the symbolic name to assign the POOL
* @param block_size is the size of all buffers held in this POOL
* @param num_blocks is the number of free buffers to fill into the POOL
* @param buffer is an optionally caller-supplied memory for the buffers
* or NULL to cause the buffer memory to be allocated automatically.
* @return the POOL handle
*
* Note: if the buffer memory is supplied by caller, the application
* will be responsable to free this memory.
*
* Only supported on CN78XX.
*/
cvmx_fpa3_pool_t cvmx_fpa3_setup_fill_pool(int node, int desired_pool,
const char *name,
unsigned int block_size,
unsigned int num_blocks,
void *buffer)
{
cvmx_fpa3_pool_t pool;
unsigned int mem_node;
int rc;
if (node < 0)
node = cvmx_get_node_num();
if (debug)
debug("%s: desired pool=%d bufsize=%u cnt=%u '%s'\n", __func__,
desired_pool, block_size, num_blocks, name);
/* Use memory from the node local to the AURA/POOL */
mem_node = node;
if (num_blocks == 0 || num_blocks > 1 << 30) {
printf("ERROR: %s: invalid block count %u\n", __func__,
num_blocks);
return CVMX_FPA3_INVALID_POOL;
}
/*
* Check for block size validity:
* With user-supplied buffer, can't increase block size,
* so make sure it is at least 128, and is aligned to 128
* For all cases make sure it is not too big
*/
if ((buffer && (block_size < CVMX_CACHE_LINE_SIZE ||
(block_size & (CVMX_CACHE_LINE_SIZE - 1)))) ||
(block_size > (1 << 17))) {
printf("ERROR: %s: invalid block size %u\n", __func__,
block_size);
return CVMX_FPA3_INVALID_POOL;
}
if (block_size < CVMX_CACHE_LINE_SIZE)
block_size = CVMX_CACHE_LINE_SIZE;
/* Reserve POOL */
pool = cvmx_fpa3_reserve_pool(node, desired_pool);
if (!__cvmx_fpa3_pool_valid(pool)) {
printf("ERROR: %s: POOL %u:%d not available\n", __func__, node,
desired_pool);
return CVMX_FPA3_INVALID_POOL;
}
/* Initialize POOL with stack storage */
rc = cvmx_fpa3_pool_stack_init(pool, mem_node, num_blocks,
FPA_NATURAL_ALIGNMENT, block_size);
if (rc < 0) {
printf("ERROR: %s: POOL %u:%u stack setup failed\n", __func__,
pool.node, pool.lpool);
cvmx_fpa3_release_pool(pool);
return CVMX_FPA3_INVALID_POOL;
}
/* Populate the POOL with buffers */
rc = cvmx_fpa3_pool_populate(pool, num_blocks, block_size, buffer,
mem_node);
if (rc < 0) {
printf("ERROR: %s: POOL %u:%u memory fill failed\n", __func__,
pool.node, pool.lpool);
cvmx_fpa3_release_pool(pool);
return CVMX_FPA3_INVALID_POOL;
}
cvmx_fpa3_set_pool_name(pool, name);
return pool;
}
/**
* Attach an AURA to an existing POOL
*
* @param pool is the handle of the POOL to be attached
* @param desired_aura is the number of the AURA resired
* or -1 for the AURA to be automatically assigned
* @param name is a symbolic name for the new AURA
* @param block_size is the size of all buffers that will be handed
* out by this AURA
* @param num_blocks is the maximum number of buffers that can be
* handed out by this AURA, and can not exceed the number
* of buffers filled into the attached POOL
* @return the AURA handle
*
* Only supported on CN78XX.
*/
cvmx_fpa3_gaura_t cvmx_fpa3_set_aura_for_pool(cvmx_fpa3_pool_t pool,
int desired_aura,
const char *name,
unsigned int block_size,
unsigned int num_blocks)
{
cvmx_fpa3_gaura_t aura;
cvmx_fpa_poolx_available_t avail_reg;
const char *emsg;
int rc;
if (debug)
debug("%s: aura=%d bufsize=%u cnt=%u '%s'\n", __func__,
desired_aura, block_size, num_blocks, name);
if (!__cvmx_fpa3_pool_valid(pool)) {
printf("ERROR: %s: POOL argument invalid\n", __func__);
return CVMX_FPA3_INVALID_GAURA;
}
/* Verify the AURA buffer count limit is not above POOL buffer count */
avail_reg.u64 =
csr_rd_node(pool.node, CVMX_FPA_POOLX_AVAILABLE(pool.lpool));
if (avail_reg.cn78xx.count < num_blocks) {
printf("WARNING: %s: AURA %u:%u buffer count limit %u reduced to POOL available count %u\n",
__func__, aura.node, aura.laura, num_blocks,
(unsigned int)avail_reg.cn78xx.count);
num_blocks = avail_reg.cn78xx.count;
}
/* Reserve an AURA number, follow desired number */
aura = cvmx_fpa3_reserve_aura(pool.node, desired_aura);
if (!__cvmx_fpa3_aura_valid(aura)) {
printf("ERROR: %s: AURA %u:%d not available\n", __func__,
pool.node, desired_aura);
return CVMX_FPA3_INVALID_GAURA;
}
/* Initialize AURA attached to the above POOL */
rc = cvmx_fpa3_aura_cfg(aura, pool, num_blocks, num_blocks + 1, 0);
if (rc < 0) {
emsg = "AURA configuration";
goto _fail;
}
cvmx_fpa3_set_aura_name(aura, name);
return aura;
_fail:
printf("ERROR: %s: %s\n", __func__, emsg);
cvmx_fpa3_release_aura(aura);
return CVMX_FPA3_INVALID_GAURA;
}
/**
* Create a combination of an AURA and a POOL
*
* @param node is the node number for the pool and memory location
* @param desired_aura is the number of the AURA resired
* or -1 for the AURA to be automatically assigned
* @param name is a symbolic name for the new AURA
* @param block_size is the size of all buffers that will be handed
* out by this AURA
* @param num_blocks is the maximum number of buffers that can be
* handed out by this AURA, and can not exceed the number
* of buffers filled into the attached POOL
* @param buffer is an optionally caller-supplied memory for the buffers
* or NULL to cause the buffer memory to be allocated automatically.
*
* @return the AURA handle
*
* Note: if the buffer memory is supplied by caller, the application
* will be responsable to free this memory.
* The POOL number is always automatically assigned.
*
* Only supported on CN78XX.
*/
cvmx_fpa3_gaura_t cvmx_fpa3_setup_aura_and_pool(int node, int desired_aura,
const char *name, void *buffer,
unsigned int block_size,
unsigned int num_blocks)
{
cvmx_fpa3_gaura_t aura = CVMX_FPA3_INVALID_GAURA;
cvmx_fpa3_pool_t pool = CVMX_FPA3_INVALID_POOL;
const char *emsg = "";
unsigned int mem_node;
int rc;
if (debug)
debug("%s: aura=%d size=%u cnt=%u '%s'\n", __func__,
desired_aura, block_size, num_blocks, name);
if (node < 0)
node = cvmx_get_node_num();
if (num_blocks == 0 || num_blocks > 1 << 30) {
printf("ERROR: %s: invalid block count %u\n", __func__,
num_blocks);
return CVMX_FPA3_INVALID_GAURA;
}
/* Use memory from the node local to the AURA/POOL */
mem_node = node;
/* Reserve an AURA number, follow desired number */
aura = cvmx_fpa3_reserve_aura(node, desired_aura);
if (!__cvmx_fpa3_aura_valid(aura)) {
emsg = "AURA not available";
goto _fail;
}
/* Reserve POOL dynamically to underpin this AURA */
pool = cvmx_fpa3_reserve_pool(node, -1);
if (!__cvmx_fpa3_pool_valid(pool)) {
emsg = "POOL not available";
goto _fail;
}
/*
* Check for block size validity:
* With user-supplied buffer, can't increase block size,
* so make sure it is at least 128, and is aligned to 128
* For all cases make sure it is not too big
*/
if ((buffer && (block_size < CVMX_CACHE_LINE_SIZE ||
(block_size & (CVMX_CACHE_LINE_SIZE - 1)))) ||
block_size > (1 << 17)) {
printf("ERROR: %s: invalid block size %u\n", __func__,
block_size);
emsg = "invalid block size";
goto _fail;
}
if (block_size < CVMX_CACHE_LINE_SIZE)
block_size = CVMX_CACHE_LINE_SIZE;
/* Initialize POOL with stack storage */
rc = cvmx_fpa3_pool_stack_init(pool, mem_node, num_blocks,
FPA_NATURAL_ALIGNMENT, block_size);
if (rc < 0) {
emsg = "POOL Stack setup";
goto _fail;
}
/* Populate the AURA/POOL with buffers */
rc = cvmx_fpa3_pool_populate(pool, num_blocks, block_size, buffer,
mem_node);
if (rc < 0) {
emsg = "POOL buffer memory";
goto _fail;
}
/* Initialize AURA attached to the above POOL */
rc = cvmx_fpa3_aura_cfg(aura, pool, num_blocks, num_blocks + 1, 0);
if (rc < 0) {
emsg = "AURA configuration";
goto _fail;
}
cvmx_fpa3_set_aura_name(aura, name);
cvmx_fpa3_set_pool_name(pool, name);
if (debug)
debug("%s: AURA %u:%u ready, avail=%lld\n", __func__, aura.node,
aura.laura, cvmx_fpa3_get_available(aura));
return aura;
_fail:
printf("ERROR: %s: Failed in %s\n", __func__, emsg);
/* These will silently fail if POOL/AURA is not valid */
cvmx_fpa3_release_aura(aura);
cvmx_fpa3_release_pool(pool);
return CVMX_FPA3_INVALID_GAURA;
}
/**
* Setup a legacy FPA pool
*
* @param desired_pool is the POOL number desired or -1 for automatic
* assignment
* @param name is the symbolic POOL name
* @param block_size is the size of all buffers held in this POOL
* @param num_blocks is the number of free buffers to fill into the POOL
* @param buffer is an optionally caller-supplied memory for the buffers
* or NULL to cause the buffer memory to be allocated automatically.
* @return pool number or -1 on error.
*
* Note: if the buffer memory is supplied by caller, the application
* will be responsable to free this memory.
*/
int cvmx_fpa1_setup_pool(int desired_pool, const char *name, void *buffer,
unsigned int block_size, unsigned int num_blocks)
{
cvmx_fpa1_pool_t pool = CVMX_FPA1_INVALID_POOL;
int rc;
if (debug)
debug("%s: desired pool %d, name '%s', mem %p size %u count %u\n",
__func__, desired_pool, name, buffer, block_size,
num_blocks);
/* Reserve desired pool or get one dynamically */
pool = cvmx_fpa1_reserve_pool(desired_pool);
/* Validate reserved pool, if successful */
if (pool < 0 || pool >= cvmx_fpa_get_max_pools()) {
/* global resources would have printed an error message here */
return CVMX_FPA1_INVALID_POOL;
}
/* Initialize the pool */
rc = cvmx_fpa1_pool_init(pool, num_blocks, block_size, buffer);
if (rc < 0) {
printf("ERROR: %s: failed pool %u init\n", __func__, pool);
cvmx_fpa1_release_pool(pool);
return CVMX_FPA1_INVALID_POOL;
}
rc = cvmx_fpa1_fill_pool(pool, num_blocks, buffer);
if (rc < 0) {
printf("ERROR: %s: failed pool %u memory\n", __func__, pool);
cvmx_fpa1_release_pool(pool);
return CVMX_FPA1_INVALID_POOL;
}
if (debug)
debug("%s: pool %d filled up\b", __func__, pool);
cvmx_fpa_set_name(pool, name);
return pool;
}
/**
* Setup an FPA pool with buffers
*
* @param pool is the POOL number desired or -1 for automatic assignment
* @param name is the symbolic POOL name
* @param buffer is an optionally caller-supplied memory for the buffers
* or NULL to cause the buffer memory to be allocated automatically.
* @param block_size is the size of all buffers held in this POOL
* @param num_blocks is the number of free buffers to fill into the POOL
* @param buffer is an optionally caller-supplied memory for the buffers
* or NULL to cause the buffer memory to be allocated automatically.
*
* @return pool number or -1 on error.
*
* Note: if the buffer memory is supplied by caller, the application
* will be responsable to free this memory.
* This function will work with CN78XX models in backward-compatible mode
*/
int cvmx_fpa_setup_pool(int pool, const char *name, void *buffer,
u64 block_size, u64 num_blocks)
{
if (octeon_has_feature(OCTEON_FEATURE_FPA3)) {
cvmx_fpa3_gaura_t aura;
aura = cvmx_fpa3_setup_aura_and_pool(-1, pool, name, buffer,
block_size, num_blocks);
if (!__cvmx_fpa3_aura_valid(aura))
return -1;
if (aura.laura >= CVMX_FPA1_NUM_POOLS && pool >= 0)
printf("WARNING: %s: AURA %u is out of range for backward-compatible operation\n",
__func__, aura.laura);
return aura.laura;
} else {
return cvmx_fpa1_setup_pool(pool, name, buffer, block_size,
num_blocks);
}
}