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From 0000000000000000000000000000000000000000 Mon Sep 17 00:00:00 2001
From: Daniel Axtens <dja@axtens.net>
Date: Mon, 6 Feb 2023 10:03:22 -0500
Subject: [PATCH] ieee1275: support runtime memory claiming
On powerpc-ieee1275, we are running out of memory trying to verify
anything. This is because:
- we have to load an entire file into memory to verify it. This is
difficult to change with appended signatures.
- We only have 32MB of heap.
- Distro kernels are now often around 30MB.
So we want to be able to claim more memory from OpenFirmware for our heap
at runtime.
There are some complications:
- The grub mm code isn't the only thing that will make claims on
memory from OpenFirmware:
* PFW/SLOF will have claimed some for their own use.
* The ieee1275 loader will try to find other bits of memory that we
haven't claimed to place the kernel and initrd when we go to boot.
* Once we load Linux, it will also try to claim memory. It claims
memory without any reference to /memory/available, it just starts
at min(top of RMO, 768MB) and works down. So we need to avoid this
area. See arch/powerpc/kernel/prom_init.c as of v5.11.
- The smallest amount of memory a ppc64 KVM guest can have is 256MB.
It doesn't work with distro kernels but can work with custom kernels.
We should maintain support for that. (ppc32 can boot with even less,
and we shouldn't break that either.)
- Even if a VM has more memory, the memory OpenFirmware makes available
as Real Memory Area can be restricted. Even with our CAS work, an LPAR
on a PowerVM box is likely to have only 512MB available to OpenFirmware
even if it has many gigabytes of memory allocated.
What should we do?
We don't know in advance how big the kernel and initrd are going to be,
which makes figuring out how much memory we can take a bit tricky.
To figure out how much memory we should leave unused, I looked at:
- an Ubuntu 20.04.1 ppc64le pseries KVM guest:
vmlinux: ~30MB
initrd: ~50MB
- a RHEL8.2 ppc64le pseries KVM guest:
vmlinux: ~30MB
initrd: ~30MB
So to give us a little wriggle room, I think we want to leave at least
128MB for the loader to put vmlinux and initrd in memory and leave Linux
with space to satisfy its early allocations.
Allow other space to be allocated at runtime.
Tested-by: Stefan Berger <stefanb@linux.ibm.com>
Signed-off-by: Daniel Axtens <dja@axtens.net>
(cherry picked from commit a5c710789ccdd27a84ae4a34c7d453bd585e2b66)
[rharwood: _start?]
---
grub-core/kern/ieee1275/init.c | 270 ++++++++++++++++++++++++++++++++++++++---
docs/grub-dev.texi | 7 +-
2 files changed, 257 insertions(+), 20 deletions(-)
diff --git a/grub-core/kern/ieee1275/init.c b/grub-core/kern/ieee1275/init.c
index c8d551759d..85af8fa97b 100644
--- a/grub-core/kern/ieee1275/init.c
+++ b/grub-core/kern/ieee1275/init.c
@@ -46,13 +46,26 @@
#endif
#include <grub/lockdown.h>
-/* The maximum heap size we're going to claim */
+/* The maximum heap size we're going to claim at boot. Not used by sparc. */
#ifdef __i386__
#define HEAP_MAX_SIZE (unsigned long) (64 * 1024 * 1024)
-#else
+#else /* __powerpc__ */
#define HEAP_MAX_SIZE (unsigned long) (32 * 1024 * 1024)
#endif
+/* RMO max. address at 768 MB */
+#define RMO_ADDR_MAX (grub_uint64_t) (768 * 1024 * 1024)
+
+/*
+ * The amount of OF space we will not claim here so as to leave space for
+ * the loader and linux to service early allocations.
+ *
+ * In 2021, Daniel Axtens claims that we should leave at least 128MB to
+ * ensure we can load a stock kernel and initrd on a pseries guest with
+ * a 512MB real memory area under PowerVM.
+ */
+#define RUNTIME_MIN_SPACE (128UL * 1024 * 1024)
+
extern char _end[];
#ifdef __sparc__
@@ -147,16 +160,52 @@ grub_claim_heap (void)
+ GRUB_KERNEL_MACHINE_STACK_SIZE), 0x200000);
}
#else
-/* Helper for grub_claim_heap. */
+/* Helpers for mm on powerpc. */
+
+/*
+ * How much memory does OF believe exists in total?
+ *
+ * This isn't necessarily the true total. It can be the total memory
+ * accessible in real mode for a pseries guest, for example.
+ */
+static grub_uint64_t rmo_top;
+
static int
-heap_init (grub_uint64_t addr, grub_uint64_t len, grub_memory_type_t type,
- void *data)
+count_free (grub_uint64_t addr, grub_uint64_t len, grub_memory_type_t type,
+ void *data)
{
- unsigned long *total = data;
+ if (type != GRUB_MEMORY_AVAILABLE)
+ return 0;
+
+ /* Do not consider memory beyond 4GB */
+ if (addr > 0xffffffffULL)
+ return 0;
+
+ if (addr + len > 0xffffffffULL)
+ len = 0xffffffffULL - addr;
+
+ *(grub_uint32_t *) data += len;
+
+ return 0;
+}
+
+static int
+regions_claim (grub_uint64_t addr, grub_uint64_t len, grub_memory_type_t type,
+ unsigned int flags, void *data)
+{
+ grub_uint32_t total = *(grub_uint32_t *) data;
+ grub_uint64_t linux_rmo_save;
if (type != GRUB_MEMORY_AVAILABLE)
return 0;
+ /* Do not consider memory beyond 4GB */
+ if (addr > 0xffffffffULL)
+ return 0;
+
+ if (addr + len > 0xffffffffULL)
+ len = 0xffffffffULL - addr;
+
if (grub_ieee1275_test_flag (GRUB_IEEE1275_FLAG_NO_PRE1_5M_CLAIM))
{
if (addr + len <= 0x180000)
@@ -169,10 +218,6 @@ heap_init (grub_uint64_t addr, grub_uint64_t len, grub_memory_type_t type,
}
}
- /* Never exceed HEAP_MAX_SIZE */
- if (*total + len > HEAP_MAX_SIZE)
- len = HEAP_MAX_SIZE - *total;
-
/* In theory, firmware should already prevent this from happening by not
listing our own image in /memory/available. The check below is intended
as a safeguard in case that doesn't happen. However, it doesn't protect
@@ -184,6 +229,108 @@ heap_init (grub_uint64_t addr, grub_uint64_t len, grub_memory_type_t type,
len = 0;
}
+ /*
+ * Linux likes to claim memory at min(RMO top, 768MB) and works down
+ * without reference to /memory/available. (See prom_init.c::alloc_down)
+ *
+ * If this block contains min(RMO top, 768MB), do not claim below that for
+ * at least a few MB (this is where RTAS, SML and potentially TCEs live).
+ *
+ * We also need to leave enough space for the DT in the RMA. (See
+ * prom_init.c::alloc_up)
+ *
+ * Finally, we also want to make sure that when grub loads the kernel,
+ * it isn't going to use up all the memory we're trying to reserve! So
+ * enforce our entire RUNTIME_MIN_SPACE here:
+ *
+ * |---------- Top of memory ----------|
+ * | |
+ * | available |
+ * | |
+ * |---------- 768 MB ----------|
+ * | |
+ * | reserved |
+ * | |
+ * |--- 768 MB - runtime min space ---|
+ * | |
+ * | available |
+ * | |
+ * |---------- 0 MB ----------|
+ *
+ * Edge cases:
+ *
+ * - Total memory less than RUNTIME_MIN_SPACE: only claim up to HEAP_MAX_SIZE.
+ * (enforced elsewhere)
+ *
+ * - Total memory between RUNTIME_MIN_SPACE and 768MB:
+ *
+ * |---------- Top of memory ----------|
+ * | |
+ * | reserved |
+ * | |
+ * |---- top - runtime min space ----|
+ * | |
+ * | available |
+ * | |
+ * |---------- 0 MB ----------|
+ *
+ * This by itself would not leave us with RUNTIME_MIN_SPACE of free bytes: if
+ * rmo_top < 768MB, we will almost certainly have FW claims in the reserved
+ * region. We try to address that elsewhere: grub_ieee1275_mm_add_region will
+ * not call us if the resulting free space would be less than RUNTIME_MIN_SPACE.
+ */
+ linux_rmo_save = grub_min (RMO_ADDR_MAX, rmo_top) - RUNTIME_MIN_SPACE;
+ if (rmo_top > RUNTIME_MIN_SPACE)
+ {
+ if (rmo_top <= RMO_ADDR_MAX)
+ {
+ if (addr > linux_rmo_save)
+ {
+ grub_dprintf ("ieee1275", "rejecting region in RUNTIME_MIN_SPACE reservation (%llx)\n",
+ addr);
+ return 0;
+ }
+ else if (addr + len > linux_rmo_save)
+ {
+ grub_dprintf ("ieee1275", "capping region: (%llx -> %llx) -> (%llx -> %llx)\n",
+ addr, addr + len, addr, rmo_top - RUNTIME_MIN_SPACE);
+ len = linux_rmo_save - addr;
+ }
+ }
+ else
+ {
+ /*
+ * we order these cases to prefer higher addresses and avoid some
+ * splitting issues
+ */
+ if (addr < RMO_ADDR_MAX && (addr + len) > RMO_ADDR_MAX)
+ {
+ grub_dprintf ("ieee1275",
+ "adjusting region for RUNTIME_MIN_SPACE: (%llx -> %llx) -> (%llx -> %llx)\n",
+ addr, addr + len, RMO_ADDR_MAX, addr + len);
+ len = (addr + len) - RMO_ADDR_MAX;
+ addr = RMO_ADDR_MAX;
+ }
+ else if ((addr < linux_rmo_save) && ((addr + len) > linux_rmo_save))
+ {
+ grub_dprintf ("ieee1275", "capping region: (%llx -> %llx) -> (%llx -> %llx)\n",
+ addr, addr + len, addr, linux_rmo_save);
+ len = linux_rmo_save - addr;
+ }
+ else if (addr >= linux_rmo_save && (addr + len) <= RMO_ADDR_MAX)
+ {
+ grub_dprintf ("ieee1275", "rejecting region in RUNTIME_MIN_SPACE reservation (%llx)\n",
+ addr);
+ return 0;
+ }
+ }
+ }
+ if (flags & GRUB_MM_ADD_REGION_CONSECUTIVE && len < total)
+ return 0;
+
+ if (len > total)
+ len = total;
+
if (len)
{
grub_err_t err;
@@ -192,15 +339,95 @@ heap_init (grub_uint64_t addr, grub_uint64_t len, grub_memory_type_t type,
if (err)
return err;
grub_mm_init_region ((void *) (grub_addr_t) addr, len);
+ total -= len;
}
- *total += len;
- if (*total >= HEAP_MAX_SIZE)
+ *(grub_uint32_t *) data = total;
+
+ if (total == 0)
return 1;
return 0;
}
+static int
+heap_init (grub_uint64_t addr, grub_uint64_t len, grub_memory_type_t type,
+ void *data)
+{
+ return regions_claim (addr, len, type, GRUB_MM_ADD_REGION_NONE, data);
+}
+
+static int
+region_claim (grub_uint64_t addr, grub_uint64_t len, grub_memory_type_t type,
+ void *data)
+{
+ return regions_claim (addr, len, type, GRUB_MM_ADD_REGION_CONSECUTIVE, data);
+}
+
+static grub_err_t
+grub_ieee1275_mm_add_region (grub_size_t size, unsigned int flags)
+{
+ grub_uint32_t free_memory = 0;
+ grub_uint32_t avail = 0;
+ grub_uint32_t total;
+
+ grub_dprintf ("ieee1275", "mm requested region of size %x, flags %x\n",
+ size, flags);
+
+ /*
+ * Update free memory each time, which is a bit inefficient but guards us
+ * against a situation where some OF driver goes out to firmware for
+ * memory and we don't realise.
+ */
+ grub_machine_mmap_iterate (count_free, &free_memory);
+
+ /* Ensure we leave enough space to boot. */
+ if (free_memory <= RUNTIME_MIN_SPACE + size)
+ {
+ grub_dprintf ("ieee1275", "Cannot satisfy allocation and retain minimum runtime space\n");
+ return GRUB_ERR_OUT_OF_MEMORY;
+ }
+
+ if (free_memory > RUNTIME_MIN_SPACE)
+ avail = free_memory - RUNTIME_MIN_SPACE;
+
+ grub_dprintf ("ieee1275", "free = 0x%x available = 0x%x\n", free_memory, avail);
+
+ if (flags & GRUB_MM_ADD_REGION_CONSECUTIVE)
+ {
+ /* first try rounding up hard for the sake of speed */
+ total = grub_max (ALIGN_UP (size, 1024 * 1024) + 1024 * 1024, 32 * 1024 * 1024);
+ total = grub_min (avail, total);
+
+ grub_dprintf ("ieee1275", "looking for %x bytes of memory (%x requested)\n", total, size);
+
+ grub_machine_mmap_iterate (region_claim, &total);
+ grub_dprintf ("ieee1275", "get memory from fw %s\n", total == 0 ? "succeeded" : "failed");
+
+ if (total != 0)
+ {
+ total = grub_min (avail, size);
+
+ grub_dprintf ("ieee1275", "fallback for %x bytes of memory (%x requested)\n", total, size);
+
+ grub_machine_mmap_iterate (region_claim, &total);
+ grub_dprintf ("ieee1275", "fallback from fw %s\n", total == 0 ? "succeeded" : "failed");
+ }
+ }
+ else
+ {
+ /* provide padding for a grub_mm_header_t and region */
+ total = grub_min (avail, size);
+ grub_machine_mmap_iterate (heap_init, &total);
+ grub_dprintf ("ieee1275", "get noncontig memory from fw %s\n", total == 0 ? "succeeded" : "failed");
+ }
+
+ if (total == 0)
+ return GRUB_ERR_NONE;
+ else
+ return GRUB_ERR_OUT_OF_MEMORY;
+}
+
/*
* How much memory does OF believe it has? (regardless of whether
* it's accessible or not)
@@ -356,17 +583,24 @@ grub_ieee1275_ibm_cas (void)
static void
grub_claim_heap (void)
{
- unsigned long total = 0;
+ grub_err_t err;
+ grub_uint32_t total = HEAP_MAX_SIZE;
+
+ err = grub_ieee1275_total_mem (&rmo_top);
+
+ /*
+ * If we cannot size the available memory, we can't be sure we're leaving
+ * space for the kernel, initrd and things Linux loads early in boot. So only
+ * allow further allocations from firmware on success
+ */
+ if (err == GRUB_ERR_NONE)
+ grub_mm_add_region_fn = grub_ieee1275_mm_add_region;
#if defined(__powerpc__)
if (grub_ieee1275_test_flag (GRUB_IEEE1275_FLAG_CAN_TRY_CAS_FOR_MORE_MEMORY))
{
- grub_uint64_t rma_size;
- grub_err_t err;
-
- err = grub_ieee1275_total_mem (&rma_size);
/* if we have an error, don't call CAS, just hope for the best */
- if (err == GRUB_ERR_NONE && rma_size < (512 * 1024 * 1024))
+ if (err == GRUB_ERR_NONE && rmo_top < (512 * 1024 * 1024))
grub_ieee1275_ibm_cas ();
}
#endif
diff --git a/docs/grub-dev.texi b/docs/grub-dev.texi
index 7b2455a8fe..7edc5b7e2b 100644
--- a/docs/grub-dev.texi
+++ b/docs/grub-dev.texi
@@ -1047,7 +1047,10 @@ space is limited to 4GiB. GRUB allocates pages from EFI for its heap, at most
1.6 GiB.
On i386-ieee1275 and powerpc-ieee1275 GRUB uses same stack as IEEE1275.
-It allocates at most 32MiB for its heap.
+
+On i386-ieee1275 and powerpc-ieee1275, GRUB will allocate 32MiB for its heap on
+startup. It may allocate more at runtime, as long as at least 128MiB remain free
+in OpenFirmware.
On sparc64-ieee1275 stack is 256KiB and heap is 2MiB.
@@ -1075,7 +1078,7 @@ In short:
@item i386-qemu @tab 60 KiB @tab < 4 GiB
@item *-efi @tab ? @tab < 1.6 GiB
@item i386-ieee1275 @tab ? @tab < 32 MiB
-@item powerpc-ieee1275 @tab ? @tab < 32 MiB
+@item powerpc-ieee1275 @tab ? @tab available memory - 128MiB
@item sparc64-ieee1275 @tab 256KiB @tab 2 MiB
@item arm-uboot @tab 256KiB @tab 2 MiB
@item mips(el)-qemu_mips @tab 2MiB @tab 253 MiB