Release 4.7 drivers/fmc/fmc-sdb.c
/*
* Copyright (C) 2012 CERN (www.cern.ch)
* Author: Alessandro Rubini <rubini@gnudd.com>
*
* Released according to the GNU GPL, version 2 or any later version.
*
* This work is part of the White Rabbit project, a research effort led
* by CERN, the European Institute for Nuclear Research.
*/
#include <linux/module.h>
#include <linux/slab.h>
#include <linux/fmc.h>
#include <linux/sdb.h>
#include <linux/err.h>
#include <linux/fmc-sdb.h>
#include <asm/byteorder.h>
static uint32_t __sdb_rd(struct fmc_device *fmc, unsigned long address,
int convert)
{
uint32_t res = fmc_readl(fmc, address);
if (convert)
return __be32_to_cpu(res);
return res;
}
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static struct sdb_array *__fmc_scan_sdb_tree(struct fmc_device *fmc,
unsigned long sdb_addr,
unsigned long reg_base, int level)
{
uint32_t onew;
int i, j, n, convert = 0;
struct sdb_array *arr, *sub;
onew = fmc_readl(fmc, sdb_addr);
if (onew == SDB_MAGIC) {
/* Uh! If we are little-endian, we must convert */
if (SDB_MAGIC != __be32_to_cpu(SDB_MAGIC))
convert = 1;
} else if (onew == __be32_to_cpu(SDB_MAGIC)) {
/* ok, don't convert */
} else {
return ERR_PTR(-ENOENT);
}
/* So, the magic was there: get the count from offset 4*/
onew = __sdb_rd(fmc, sdb_addr + 4, convert);
n = __be16_to_cpu(*(uint16_t *)&onew);
arr = kzalloc(sizeof(*arr), GFP_KERNEL);
if (!arr)
return ERR_PTR(-ENOMEM);
arr->record = kzalloc(sizeof(arr->record[0]) * n, GFP_KERNEL);
arr->subtree = kzalloc(sizeof(arr->subtree[0]) * n, GFP_KERNEL);
if (!arr->record || !arr->subtree) {
kfree(arr->record);
kfree(arr->subtree);
kfree(arr);
return ERR_PTR(-ENOMEM);
}
arr->len = n;
arr->level = level;
arr->fmc = fmc;
for (i = 0; i < n; i++) {
union sdb_record *r;
for (j = 0; j < sizeof(arr->record[0]); j += 4) {
*(uint32_t *)((void *)(arr->record + i) + j) =
__sdb_rd(fmc, sdb_addr + (i * 64) + j, convert);
}
r = &arr->record[i];
arr->subtree[i] = ERR_PTR(-ENODEV);
if (r->empty.record_type == sdb_type_bridge) {
struct sdb_component *c = &r->bridge.sdb_component;
uint64_t subaddr = __be64_to_cpu(r->bridge.sdb_child);
uint64_t newbase = __be64_to_cpu(c->addr_first);
subaddr += reg_base;
newbase += reg_base;
sub = __fmc_scan_sdb_tree(fmc, subaddr, newbase,
level + 1);
arr->subtree[i] = sub; /* may be error */
if (IS_ERR(sub))
continue;
sub->parent = arr;
sub->baseaddr = newbase;
}
}
return arr;
}
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int fmc_scan_sdb_tree(struct fmc_device *fmc, unsigned long address)
{
struct sdb_array *ret;
if (fmc->sdb)
return -EBUSY;
ret = __fmc_scan_sdb_tree(fmc, address, 0 /* regs */, 0);
if (IS_ERR(ret))
return PTR_ERR(ret);
fmc->sdb = ret;
return 0;
}
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EXPORT_SYMBOL(fmc_scan_sdb_tree);
static void __fmc_sdb_free(struct sdb_array *arr)
{
int i, n;
if (!arr)
return;
n = arr->len;
for (i = 0; i < n; i++) {
if (IS_ERR(arr->subtree[i]))
continue;
__fmc_sdb_free(arr->subtree[i]);
}
kfree(arr->record);
kfree(arr->subtree);
kfree(arr);
}
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int fmc_free_sdb_tree(struct fmc_device *fmc)
{
__fmc_sdb_free(fmc->sdb);
fmc->sdb = NULL;
return 0;
}
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EXPORT_SYMBOL(fmc_free_sdb_tree);
/* This helper calls reprogram and inizialized sdb as well */
int fmc_reprogram(struct fmc_device *fmc, struct fmc_driver *d, char *gw,
int sdb_entry)
{
int ret;
ret = fmc->op->reprogram(fmc, d, gw);
if (ret < 0)
return ret;
if (sdb_entry < 0)
return ret;
/* We are required to find SDB at a given offset */
ret = fmc_scan_sdb_tree(fmc, sdb_entry);
if (ret < 0) {
dev_err(&fmc->dev, "Can't find SDB at address 0x%x\n",
sdb_entry);
return -ENODEV;
}
fmc_dump_sdb(fmc);
return 0;
}
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EXPORT_SYMBOL(fmc_reprogram);
static char *__strip_trailing_space(char *buf, char *str, int len)
{
int i = len - 1;
memcpy(buf, str, len);
while(i >= 0 && buf[i] == ' ')
buf[i--] = '\0';
return buf;
}
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#define __sdb_string(buf, field) ({ \
BUILD_BUG_ON(sizeof(buf) < sizeof(field)); \
__strip_trailing_space(buf, (void *)(field), sizeof(field)); \
})
static void __fmc_show_sdb_tree(const struct fmc_device *fmc,
const struct sdb_array *arr)
{
unsigned long base = arr->baseaddr;
int i, j, n = arr->len, level = arr->level;
char buf[64];
for (i = 0; i < n; i++) {
union sdb_record *r;
struct sdb_product *p;
struct sdb_component *c;
r = &arr->record[i];
c = &r->dev.sdb_component;
p = &c->product;
dev_info(&fmc->dev, "SDB: ");
for (j = 0; j < level; j++)
printk(KERN_CONT " ");
switch (r->empty.record_type) {
case sdb_type_interconnect:
printk(KERN_CONT "%08llx:%08x %.19s\n",
__be64_to_cpu(p->vendor_id),
__be32_to_cpu(p->device_id),
p->name);
break;
case sdb_type_device:
printk(KERN_CONT "%08llx:%08x %.19s (%08llx-%08llx)\n",
__be64_to_cpu(p->vendor_id),
__be32_to_cpu(p->device_id),
p->name,
__be64_to_cpu(c->addr_first) + base,
__be64_to_cpu(c->addr_last) + base);
break;
case sdb_type_bridge:
printk(KERN_CONT "%08llx:%08x %.19s (bridge: %08llx)\n",
__be64_to_cpu(p->vendor_id),
__be32_to_cpu(p->device_id),
p->name,
__be64_to_cpu(c->addr_first) + base);
if (IS_ERR(arr->subtree[i])) {
dev_info(&fmc->dev, "SDB: (bridge error %li)\n",
PTR_ERR(arr->subtree[i]));
break;
}
__fmc_show_sdb_tree(fmc, arr->subtree[i]);
break;
case sdb_type_integration:
printk(KERN_CONT "integration\n");
break;
case sdb_type_repo_url:
printk(KERN_CONT "Synthesis repository: %s\n",
__sdb_string(buf, r->repo_url.repo_url));
break;
case sdb_type_synthesis:
printk(KERN_CONT "Bitstream '%s' ",
__sdb_string(buf, r->synthesis.syn_name));
printk(KERN_CONT "synthesized %08x by %s ",
__be32_to_cpu(r->synthesis.date),
__sdb_string(buf, r->synthesis.user_name));
printk(KERN_CONT "(%s version %x), ",
__sdb_string(buf, r->synthesis.tool_name),
__be32_to_cpu(r->synthesis.tool_version));
printk(KERN_CONT "commit %pm\n",
r->synthesis.commit_id);
break;
case sdb_type_empty:
printk(KERN_CONT "empty\n");
break;
default:
printk(KERN_CONT "UNKNOWN TYPE 0x%02x\n",
r->empty.record_type);
break;
}
}
}
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void fmc_show_sdb_tree(const struct fmc_device *fmc)
{
if (!fmc->sdb)
return;
__fmc_show_sdb_tree(fmc, fmc->sdb);
}
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EXPORT_SYMBOL(fmc_show_sdb_tree);
signed long fmc_find_sdb_device(struct sdb_array *tree,
uint64_t vid, uint32_t did, unsigned long *sz)
{
signed long res = -ENODEV;
union sdb_record *r;
struct sdb_product *p;
struct sdb_component *c;
int i, n = tree->len;
uint64_t last, first;
/* FIXME: what if the first interconnect is not at zero? */
for (i = 0; i < n; i++) {
r = &tree->record[i];
c = &r->dev.sdb_component;
p = &c->product;
if (!IS_ERR(tree->subtree[i]))
res = fmc_find_sdb_device(tree->subtree[i],
vid, did, sz);
if (res >= 0)
return res + tree->baseaddr;
if (r->empty.record_type != sdb_type_device)
continue;
if (__be64_to_cpu(p->vendor_id) != vid)
continue;
if (__be32_to_cpu(p->device_id) != did)
continue;
/* found */
last = __be64_to_cpu(c->addr_last);
first = __be64_to_cpu(c->addr_first);
if (sz)
*sz = (typeof(*sz))(last + 1 - first);
return first + tree->baseaddr;
}
return res;
}
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EXPORT_SYMBOL(fmc_find_sdb_device);
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| Total | 1591 | 100.00% | 4 | 100.00% |
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