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// SPDX-License-Identifier: GPL-2.0
/*
* Copyright (C) 2018-2020 Marvell International Ltd.
*/
#include <env.h>
#include <errno.h>
#include <linux/compat.h>
#include <linux/ctype.h>
#include <mach/cvmx-regs.h>
#include <mach/cvmx-coremask.h>
#include <mach/cvmx-fuse.h>
#include <mach/octeon-model.h>
#include <mach/octeon-feature.h>
#include <mach/cvmx-ciu-defs.h>
struct cvmx_coremask *get_coremask_override(struct cvmx_coremask *pcm)
{
struct cvmx_coremask pcm_override = CVMX_COREMASK_MAX;
char *cptr;
/* The old code sets the number of cores to be to 16 in this case. */
cvmx_coremask_set_cores(pcm, 0, 16);
if (OCTEON_IS_OCTEON2() || OCTEON_IS_OCTEON3())
cvmx_coremask_copy(pcm, &pcm_override);
cptr = env_get("coremask_override");
if (cptr) {
if (cvmx_coremask_str2bmp(pcm, cptr) < 0)
return NULL;
}
return pcm;
}
/* Validate the coremask that is passed to a boot* function. */
int validate_coremask(struct cvmx_coremask *pcm)
{
struct cvmx_coremask coremask_override;
struct cvmx_coremask fuse_coremask;
if (!get_coremask_override(&coremask_override))
return -1;
octeon_get_available_coremask(&fuse_coremask);
if (!cvmx_coremask_is_subset(&fuse_coremask, pcm)) {
puts("ERROR: Can't boot cores that don't exist!\n");
puts("Available coremask:\n");
cvmx_coremask_print(&fuse_coremask);
return -1;
}
if (!cvmx_coremask_is_subset(&coremask_override, pcm)) {
struct cvmx_coremask print_cm;
puts("Notice: coremask changed from:\n");
cvmx_coremask_print(pcm);
puts("based on coremask_override of:\n");
cvmx_coremask_print(&coremask_override);
cvmx_coremask_and(&print_cm, pcm, &coremask_override);
puts("to:\n");
cvmx_coremask_print(&print_cm);
}
return 0;
}
/**
* In CIU_FUSE for the 78XX, odd and even cores are separated out.
* For example, a CIU_FUSE value of 0xfffffefffffe indicates that bits 0 and 1
* are set.
* This function converts the bit number in the CIU_FUSE register to a
* physical core number.
*/
static int convert_ciu_fuse_to_physical_core(int core, int max_cores)
{
if (!octeon_has_feature(OCTEON_FEATURE_CIU3))
return core;
else if (!OCTEON_IS_MODEL(OCTEON_CN78XX))
return core;
else if (core < (max_cores / 2))
return core * 2;
else
return ((core - (max_cores / 2)) * 2) + 1;
}
/**
* Get the total number of fuses blown as well as the number blown per tad.
*
* @param coremask fuse coremask
* @param[out] tad_blown_count number of cores blown for each tad
* @param num_tads number of tads
* @param max_cores maximum number of cores
*
* Return: void
*/
void fill_tad_corecount(u64 coremask, int tad_blown_count[], int num_tads,
int max_cores)
{
int core, physical_core;
for (core = 0; core < max_cores; core++) {
if (!(coremask & (1ULL << core))) {
int tad;
physical_core =
convert_ciu_fuse_to_physical_core(core,
max_cores);
tad = physical_core % num_tads;
tad_blown_count[tad]++;
}
}
}
u64 get_core_pattern(int num_tads, int max_cores)
{
u64 pattern = 1ULL;
int cnt;
for (cnt = 1; cnt < (max_cores / num_tads); cnt++)
pattern |= pattern << num_tads;
return pattern;
}
/**
* For CN78XX and CN68XX this function returns the logical coremask from the
* CIU_FUSE register value. For other models there is no difference.
*
* @param ciu_fuse_value fuse value from CIU_FUSE register
* Return: logical coremask of CIU_FUSE value.
*/
u64 get_logical_coremask(u64 ciu_fuse_value)
{
int tad_blown_count[MAX_CORE_TADS] = {0};
int tad;
u64 logical_coremask = 0;
u64 tad_mask, pattern;
int num_tads, max_cores;
if (OCTEON_IS_MODEL(OCTEON_CN78XX)) {
num_tads = 8;
max_cores = 48;
} else if (OCTEON_IS_MODEL(OCTEON_CN73XX) ||
OCTEON_IS_MODEL(OCTEON_CNF75XX)) {
num_tads = 4;
max_cores = 16;
} else if (OCTEON_IS_MODEL(OCTEON_CN68XX)) {
num_tads = 4;
max_cores = 32;
} else {
/* Most Octeon devices don't need any mapping. */
return ciu_fuse_value;
}
pattern = get_core_pattern(num_tads, max_cores);
fill_tad_corecount(ciu_fuse_value, tad_blown_count,
num_tads, max_cores);
for (tad = 0; tad < num_tads; tad++) {
tad_mask = pattern << tad;
logical_coremask |= tad_mask >> (tad_blown_count[tad] * num_tads);
}
return logical_coremask;
}
/**
* Returns the available coremask either from env or fuses.
* If the fuses are blown and locked, they are the definitive coremask.
*
* @param pcm pointer to coremask to fill in
* Return: pointer to coremask
*/
struct cvmx_coremask *octeon_get_available_coremask(struct cvmx_coremask *pcm)
{
u8 node_mask = 0x01; /* ToDo: Currently only one node is supported */
u64 ciu_fuse;
u64 cores;
cvmx_coremask_clear_all(pcm);
if (octeon_has_feature(OCTEON_FEATURE_CIU3)) {
int node;
cvmx_coremask_for_each_node(node, node_mask) {
ciu_fuse = (csr_rd(CVMX_CIU_FUSE) &
0x0000FFFFFFFFFFFFULL);
ciu_fuse = get_logical_coremask(ciu_fuse);
cvmx_coremask_set64_node(pcm, node, ciu_fuse);
}
return pcm;
}
ciu_fuse = (csr_rd(CVMX_CIU_FUSE) & 0x0000FFFFFFFFFFFFULL);
ciu_fuse = get_logical_coremask(ciu_fuse);
if (OCTEON_IS_MODEL(OCTEON_CN68XX))
cvmx_coremask_set64(pcm, ciu_fuse);
/* Get number of cores from fuse register, convert to coremask */
cores = __builtin_popcountll(ciu_fuse);
cvmx_coremask_set_cores(pcm, 0, cores);
return pcm;
}
int cvmx_coremask_str2bmp(struct cvmx_coremask *pcm, char *hexstr)
{
int i, j;
int l; /* length of the hexstr in characters */
int lb; /* number of bits taken by hexstr */
int hldr_offset;/* holder's offset within the coremask */
int hldr_xsz; /* holder's size in the number of hex digits */
u64 h;
char c;
#define MINUS_ONE (hexstr[0] == '-' && hexstr[1] == '1' && hexstr[2] == 0)
if (MINUS_ONE) {
cvmx_coremask_set_all(pcm);
return 0;
}
/* Skip '0x' from hexstr */
if (hexstr[0] == '0' && (hexstr[1] == 'x' || hexstr[1] == 'X'))
hexstr += 2;
if (!strlen(hexstr)) {
printf("%s: Error: hex string is empty\n", __func__);
return -2;
}
/* Trim leading zeros */
while (*hexstr == '0')
hexstr++;
cvmx_coremask_clear_all(pcm);
l = strlen(hexstr);
/* If length is 0 then the hex string must be all zeros */
if (l == 0)
return 0;
for (i = 0; i < l; i++) {
if (isxdigit((int)hexstr[i]) == 0) {
printf("%s: Non-hex digit within hexstr\n", __func__);
return -2;
}
}
lb = (l - 1) * 4;
if (hexstr[0] > '7')
lb += 4;
else if (hexstr[0] > '3')
lb += 3;
else if (hexstr[0] > '1')
lb += 2;
else
lb += 1;
if (lb > CVMX_MIPS_MAX_CORES) {
printf("%s: hexstr (%s) is too long\n", __func__, hexstr);
return -1;
}
hldr_offset = 0;
hldr_xsz = 2 * sizeof(u64);
for (i = l; i > 0; i -= hldr_xsz) {
c = hexstr[i];
hexstr[i] = 0;
j = i - hldr_xsz;
if (j < 0)
j = 0;
h = simple_strtoull(&hexstr[j], NULL, 16);
if (errno == EINVAL) {
printf("%s: strtou returns w/ EINVAL\n", __func__);
return -2;
}
pcm->coremask_bitmap[hldr_offset] = h;
hexstr[i] = c;
hldr_offset++;
}
return 0;
}
void cvmx_coremask_print(const struct cvmx_coremask *pcm)
{
int i, j;
int start;
int found = 0;
/*
* Print one node per line. Since the bitmap is stored LSB to MSB
* we reverse the order when printing.
*/
if (!octeon_has_feature(OCTEON_FEATURE_MULTINODE)) {
start = 0;
for (j = CVMX_COREMASK_MAX_CORES_PER_NODE -
CVMX_COREMASK_HLDRSZ;
j >= 0; j -= CVMX_COREMASK_HLDRSZ) {
if (pcm->coremask_bitmap[j / CVMX_COREMASK_HLDRSZ] != 0)
start = 1;
if (start) {
printf(" 0x%llx",
(u64)pcm->coremask_bitmap[j /
CVMX_COREMASK_HLDRSZ]);
}
}
if (start)
found = 1;
/*
* If the coremask is empty print <EMPTY> so it is not
* confusing
*/
if (!found)
printf("<EMPTY>");
printf("\n");
return;
}
for (i = 0; i < CVMX_MAX_USED_CORES_BMP;
i += CVMX_COREMASK_MAX_CORES_PER_NODE) {
printf("%s node %d:", i > 0 ? "\n" : "",
cvmx_coremask_core_to_node(i));
start = 0;
for (j = i + CVMX_COREMASK_MAX_CORES_PER_NODE -
CVMX_COREMASK_HLDRSZ;
j >= i;
j -= CVMX_COREMASK_HLDRSZ) {
/* Don't start printing until we get a non-zero word. */
if (pcm->coremask_bitmap[j / CVMX_COREMASK_HLDRSZ] != 0)
start = 1;
if (start) {
printf(" 0x%llx", (u64)pcm->coremask_bitmap[j /
CVMX_COREMASK_HLDRSZ]);
}
}
if (start)
found = 1;
}
i /= CVMX_COREMASK_HLDRSZ;
for (; i < CVMX_COREMASK_BMPSZ; i++) {
if (pcm->coremask_bitmap[i]) {
printf(" EXTRA GARBAGE[%i]: %016llx\n", i,
(u64)pcm->coremask_bitmap[i]);
}
}
/* If the coremask is empty print <EMPTY> so it is not confusing */
if (!found)
printf("<EMPTY>");
printf("\n");
}
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