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linux/arch/s390/boot/mem_detect.c
Vasily Gorbik 73045a08cf s390: unify identity mapping limits handling 
Currently we have to consider too many different values which
in the end only affect identity mapping size. These are:
1. max_physmem_end - end of physical memory online or standby.
   Always <= end of the last online memory block (get_mem_detect_end()).
2. CONFIG_MAX_PHYSMEM_BITS - the maximum size of physical memory the
   kernel is able to support.
3. "mem=" kernel command line option which limits physical memory usage.
4. OLDMEM_BASE which is a kdump memory limit when the kernel is executed as
   crash kernel.
5. "hsa" size which is a memory limit when the kernel is executed during
   zfcp/nvme dump.

Through out kernel startup and run we juggle all those values at once
but that does not bring any amusement, only confusion and complexity.

Unify all those values to a single one we should really care, that is
our identity mapping size.

Signed-off-by: Vasily Gorbik <gor@linux.ibm.com>
Reviewed-by: Alexander Gordeev <agordeev@linux.ibm.com>
Acked-by: Heiko Carstens <hca@linux.ibm.com>
Signed-off-by: Heiko Carstens <hca@linux.ibm.com>
2020-11-20 19:19:10 +01:00

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// SPDX-License-Identifier: GPL-2.0
#include <linux/errno.h>
#include <linux/init.h>
#include <asm/sclp.h>
#include <asm/sections.h>
#include <asm/mem_detect.h>
#include <asm/sparsemem.h>
#include "compressed/decompressor.h"
#include "boot.h"
struct mem_detect_info __bootdata(mem_detect);
/* up to 256 storage elements, 1020 subincrements each */
#define ENTRIES_EXTENDED_MAX \
(256 * (1020 / 2) * sizeof(struct mem_detect_block))
/*
* To avoid corrupting old kernel memory during dump, find lowest memory
* chunk possible either right after the kernel end (decompressed kernel) or
* after initrd (if it is present and there is no hole between the kernel end
* and initrd)
*/
static void *mem_detect_alloc_extended(void)
{
unsigned long offset = ALIGN(mem_safe_offset(), sizeof(u64));
if (IS_ENABLED(CONFIG_BLK_DEV_INITRD) && INITRD_START && INITRD_SIZE &&
INITRD_START < offset + ENTRIES_EXTENDED_MAX)
offset = ALIGN(INITRD_START + INITRD_SIZE, sizeof(u64));
return (void *)offset;
}
static struct mem_detect_block *__get_mem_detect_block_ptr(u32 n)
{
if (n < MEM_INLINED_ENTRIES)
return &mem_detect.entries[n];
if (unlikely(!mem_detect.entries_extended))
mem_detect.entries_extended = mem_detect_alloc_extended();
return &mem_detect.entries_extended[n - MEM_INLINED_ENTRIES];
}
/*
* sequential calls to add_mem_detect_block with adjacent memory areas
* are merged together into single memory block.
*/
void add_mem_detect_block(u64 start, u64 end)
{
struct mem_detect_block *block;
if (mem_detect.count) {
block = __get_mem_detect_block_ptr(mem_detect.count - 1);
if (block->end == start) {
block->end = end;
return;
}
}
block = __get_mem_detect_block_ptr(mem_detect.count);
block->start = start;
block->end = end;
mem_detect.count++;
}
static int __diag260(unsigned long rx1, unsigned long rx2)
{
register unsigned long _rx1 asm("2") = rx1;
register unsigned long _rx2 asm("3") = rx2;
register unsigned long _ry asm("4") = 0x10; /* storage configuration */
int rc = -1; /* fail */
unsigned long reg1, reg2;
psw_t old = S390_lowcore.program_new_psw;
asm volatile(
" epsw %0,%1\n"
" st %0,%[psw_pgm]\n"
" st %1,%[psw_pgm]+4\n"
" larl %0,1f\n"
" stg %0,%[psw_pgm]+8\n"
" diag %[rx],%[ry],0x260\n"
" ipm %[rc]\n"
" srl %[rc],28\n"
"1:\n"
: "=&d" (reg1), "=&a" (reg2),
[psw_pgm] "=Q" (S390_lowcore.program_new_psw),
[rc] "+&d" (rc), [ry] "+d" (_ry)
: [rx] "d" (_rx1), "d" (_rx2)
: "cc", "memory");
S390_lowcore.program_new_psw = old;
return rc == 0 ? _ry : -1;
}
static int diag260(void)
{
int rc, i;
struct {
unsigned long start;
unsigned long end;
} storage_extents[8] __aligned(16); /* VM supports up to 8 extends */
memset(storage_extents, 0, sizeof(storage_extents));
rc = __diag260((unsigned long)storage_extents, sizeof(storage_extents));
if (rc == -1)
return -1;
for (i = 0; i < min_t(int, rc, ARRAY_SIZE(storage_extents)); i++)
add_mem_detect_block(storage_extents[i].start, storage_extents[i].end + 1);
return 0;
}
static int tprot(unsigned long addr)
{
unsigned long pgm_addr;
int rc = -EFAULT;
psw_t old = S390_lowcore.program_new_psw;
S390_lowcore.program_new_psw.mask = __extract_psw();
asm volatile(
" larl %[pgm_addr],1f\n"
" stg %[pgm_addr],%[psw_pgm_addr]\n"
" tprot 0(%[addr]),0\n"
" ipm %[rc]\n"
" srl %[rc],28\n"
"1:\n"
: [pgm_addr] "=&d"(pgm_addr),
[psw_pgm_addr] "=Q"(S390_lowcore.program_new_psw.addr),
[rc] "+&d"(rc)
: [addr] "a"(addr)
: "cc", "memory");
S390_lowcore.program_new_psw = old;
return rc;
}
static void search_mem_end(void)
{
unsigned long range = 1 << (MAX_PHYSMEM_BITS - 20); /* in 1MB blocks */
unsigned long offset = 0;
unsigned long pivot;
while (range > 1) {
range >>= 1;
pivot = offset + range;
if (!tprot(pivot << 20))
offset = pivot;
}
add_mem_detect_block(0, (offset + 1) << 20);
}
unsigned long detect_memory(void)
{
unsigned long max_physmem_end;
sclp_early_get_memsize(&max_physmem_end);
if (!sclp_early_read_storage_info()) {
mem_detect.info_source = MEM_DETECT_SCLP_STOR_INFO;
return max_physmem_end;
}
if (!diag260()) {
mem_detect.info_source = MEM_DETECT_DIAG260;
return max_physmem_end;
}
if (max_physmem_end) {
add_mem_detect_block(0, max_physmem_end);
mem_detect.info_source = MEM_DETECT_SCLP_READ_INFO;
return max_physmem_end;
}
search_mem_end();
mem_detect.info_source = MEM_DETECT_BIN_SEARCH;
return get_mem_detect_end();
}
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