git: 35d0f443cfaa - main - riscv: Define a SV48 memory map
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Date: Tue, 01 Mar 2022 14:40:01 UTC
The branch main has been updated by markj: URL: https://cgit.FreeBSD.org/src/commit/?id=35d0f443cfaaa32afa43f4ffca986590fc56d827 commit 35d0f443cfaaa32afa43f4ffca986590fc56d827 Author: Mark Johnston <markj@FreeBSD.org> AuthorDate: 2022-03-01 14:04:38 +0000 Commit: Mark Johnston <markj@FreeBSD.org> CommitDate: 2022-03-01 14:39:43 +0000 riscv: Define a SV48 memory map No functional change intended. Reviewed by: kib, jhb MFC after: 1 week Sponsored by: The FreeBSD Foundation Differential Revision: https://reviews.freebsd.org/D34273 --- sys/riscv/include/vmparam.h | 34 ++++++++++++++++++++++++++-------- 1 file changed, 26 insertions(+), 8 deletions(-) diff --git a/sys/riscv/include/vmparam.h b/sys/riscv/include/vmparam.h index d65664eff94e..35f82638cd70 100644 --- a/sys/riscv/include/vmparam.h +++ b/sys/riscv/include/vmparam.h @@ -116,14 +116,19 @@ * Address space layout. * * RISC-V implements multiple paging modes with different virtual address space - * sizes: SV32, SV39 and SV48. SV39 permits a virtual address space size of - * 512GB and uses a three-level page table. Since this is large enough for most - * purposes, we currently use SV39 for both userland and the kernel, avoiding - * the extra translation step required by SV48. + * sizes: SV32, SV39, SV48 and SV57. Only SV39 and SV48 are supported by + * FreeBSD. SV39 provides a 512GB virtual address space and uses three-level + * page tables, while SV48 provides a 256TB virtual address space and uses + * four-level page tables. 64-bit RISC-V implementations are required to provide + * at least SV39 mode; locore initially enables SV39 mode while bootstrapping + * page tables, and pmap_bootstrap() optionally switches to SV48 mode. * * The address space is split into two regions at each end of the 64-bit address - * space: + * space; the lower region is for use by user mode software, while the upper + * region is used for various kernel maps. The kernel map layout in SV48 mode + * is currently identical to that used in SV39 mode. * + * SV39 memory map: * 0x0000000000000000 - 0x0000003fffffffff 256GB user map * 0x0000004000000000 - 0xffffffbfffffffff unmappable * 0xffffffc000000000 - 0xffffffc7ffffffff 32GB kernel map @@ -131,6 +136,15 @@ * 0xffffffd000000000 - 0xffffffefffffffff 128GB direct map * 0xfffffff000000000 - 0xffffffffffffffff 64GB unused * + * SV48 memory map: + * 0x0000000000000000 - 0x00007fffffffffff 128TB user map + * 0x0000800000000000 - 0xffff7fffffffffff unmappable + * 0xffff800000000000 - 0xffffffc7ffffffff 127.75TB hole + * 0xffffffc000000000 - 0xffffffc7ffffffff 32GB kernel map + * 0xffffffc800000000 - 0xffffffcfffffffff 32GB unused + * 0xffffffd000000000 - 0xffffffefffffffff 128GB direct map + * 0xfffffff000000000 - 0xffffffffffffffff 64GB unused + * * The kernel is loaded at the beginning of the kernel map. * * We define some interesting address constants: @@ -180,9 +194,9 @@ ((va) - DMAP_MIN_ADDRESS) + dmap_phys_base; \ }) -#define VM_MIN_USER_ADDRESS_SV39 (0x0000000000000000UL) +#define VM_MIN_USER_ADDRESS (0x0000000000000000UL) #define VM_MAX_USER_ADDRESS_SV39 (0x0000004000000000UL) -#define VM_MIN_USER_ADDRESS VM_MIN_USER_ADDRESS_SV39 +#define VM_MAX_USER_ADDRESS_SV48 (0x0000800000000000UL) #define VM_MAX_USER_ADDRESS VM_MAX_USER_ADDRESS_SV39 #define VM_MINUSER_ADDRESS (VM_MIN_USER_ADDRESS) @@ -194,9 +208,13 @@ #define KERNBASE (VM_MIN_KERNEL_ADDRESS) #define SHAREDPAGE_SV39 (VM_MAX_USER_ADDRESS_SV39 - PAGE_SIZE) +#define SHAREDPAGE_SV48 (VM_MAX_USER_ADDRESS_SV48 - PAGE_SIZE) #define SHAREDPAGE SHAREDPAGE_SV39 -#define USRSTACK SHAREDPAGE_SV39 +#define USRSTACK_SV39 SHAREDPAGE_SV39 +#define USRSTACK_SV48 SHAREDPAGE_SV48 +#define USRSTACK USRSTACK_SV39 #define PS_STRINGS_SV39 (USRSTACK_SV39 - sizeof(struct ps_strings)) +#define PS_STRINGS_SV48 (USRSTACK_SV48 - sizeof(struct ps_strings)) #define VM_EARLY_DTB_ADDRESS (VM_MAX_KERNEL_ADDRESS - (2 * L2_SIZE))