Do not add huge "Pending [no reason]" patches please. By now you should know I will immediately strongly object.
And please do just a little bit more research: this patch is a part of 2.0.32 release, so the recipe should be updated to that instead. Alex On Sat, 13 Dec 2025 at 10:55, Khem Raj via lists.openembedded.org <[email protected]> wrote: > > These patches are used in several distros and are part of kexec-tools > riscv-collab fork. Unfortunately upstreaming for this fork is slow > > Signed-off-by: Khem Raj <[email protected]> > --- > .../kexec-tools/riscv64-hotplug-support.patch | 25 + > .../kexec/kexec-tools/riscv64-support.patch | 1469 +++++++++++++++++ > .../kexec/kexec-tools_2.0.31.bb | 4 +- > 3 files changed, 1497 insertions(+), 1 deletion(-) > create mode 100644 > meta/recipes-kernel/kexec/kexec-tools/riscv64-hotplug-support.patch > create mode 100644 > meta/recipes-kernel/kexec/kexec-tools/riscv64-support.patch > > diff --git > a/meta/recipes-kernel/kexec/kexec-tools/riscv64-hotplug-support.patch > b/meta/recipes-kernel/kexec/kexec-tools/riscv64-hotplug-support.patch > new file mode 100644 > index 0000000000..90e08a9050 > --- /dev/null > +++ b/meta/recipes-kernel/kexec/kexec-tools/riscv64-hotplug-support.patch > @@ -0,0 +1,25 @@ > +From: Petr Tesarik <[email protected]> > +Subject: riscv: fix build with hotplug support > +Upstream: not yet, blocked by base RISC-V patches > + > +Commit 3c47f384f1c4 ("kexec_load: Use new kexec flag for hotplug support") > +adds a new architecture-specific function named arch_do_exclude_segment. > +Since RISC-V does not yet implement hotplug updates in the kernel, add a > +trivial definition of this function to kexec-tools. > + > +Upstream-Status: Pending > +Signed-off-by: Petr Tesarik <[email protected]> > +Index: kexec-tools-2.0.29/kexec/arch/riscv/kexec-riscv.c > +=================================================================== > +--- kexec-tools-2.0.29.orig/kexec/arch/riscv/kexec-riscv.c > ++++ kexec-tools-2.0.29/kexec/arch/riscv/kexec-riscv.c > +@@ -362,3 +362,8 @@ int arch_compat_trampoline(struct kexec_ > + void arch_update_purgatory(struct kexec_info *UNUSED(info)) > + { > + } > ++ > ++int arch_do_exclude_segment(struct kexec_info *UNUSED(info), struct > kexec_segment *UNUSED(segment)) > ++{ > ++ return 0; > ++} > + > diff --git a/meta/recipes-kernel/kexec/kexec-tools/riscv64-support.patch > b/meta/recipes-kernel/kexec/kexec-tools/riscv64-support.patch > new file mode 100644 > index 0000000000..74f06d3be0 > --- /dev/null > +++ b/meta/recipes-kernel/kexec/kexec-tools/riscv64-support.patch > @@ -0,0 +1,1469 @@ > +From 379d8f3ef3219bd400c7893d0a262b079c1de408 Mon Sep 17 00:00:00 2001 > +From: Nick Kossifidis <[email protected]> > +Date: Tue, 5 Oct 2021 15:01:19 +0300 > +Subject: [PATCH] RISC-V: Add support for riscv kexec/kdump on kexec-tools > + > +This patch adds support for loading the ELF kernel image. It parses > +the current/provided device tree to determine the system's memory > +layout, and /proc/iomem for the various kernel segments. > + > +See > https://github.com/riscv-collab/kexec-tools/commit/379d8f3ef3219bd400c7893d0a262b079c1de408 > + > +Tested on Qemu's rv64 virt machine. > + > +Upstream-Status: Pending > +Signed-off-by: Nick Kossifidis <[email protected]> > +Signed-off-by: Khem Raj <[email protected]> > +--- > + configure.ac | 3 + > + include/elf.h | 3 +- > + kexec/Makefile | 1 + > + kexec/arch/riscv/Makefile | 35 ++ > + kexec/arch/riscv/crashdump-riscv.c | 140 ++++++++ > + kexec/arch/riscv/include/arch/options.h | 43 +++ > + kexec/arch/riscv/kexec-elf-riscv.c | 255 ++++++++++++++ > + kexec/arch/riscv/kexec-riscv.c | 364 +++++++++++++++++++ > + kexec/arch/riscv/kexec-riscv.h | 32 ++ > + kexec/dt-ops.c | 442 +++++++++++++++++++++++- > + kexec/dt-ops.h | 7 + > + kexec/kexec-syscall.h | 4 + > + purgatory/Makefile | 1 + > + purgatory/arch/riscv/Makefile | 7 + > + 14 files changed, 1335 insertions(+), 2 deletions(-) > + create mode 100644 kexec/arch/riscv/Makefile > + create mode 100644 kexec/arch/riscv/crashdump-riscv.c > + create mode 100644 kexec/arch/riscv/include/arch/options.h > + create mode 100644 kexec/arch/riscv/kexec-elf-riscv.c > + create mode 100644 kexec/arch/riscv/kexec-riscv.c > + create mode 100644 kexec/arch/riscv/kexec-riscv.h > + create mode 100644 purgatory/arch/riscv/Makefile > + > +--- a/configure.ac > ++++ b/configure.ac > +@@ -61,6 +61,9 @@ case $target_cpu in > + loongarch*) > + ARCH="loongarch" > + ;; > ++ riscv32|riscv64 ) > ++ ARCH="riscv" > ++ ;; > + * ) > + AC_MSG_ERROR([unsupported architecture $target_cpu]) > + ;; > +--- a/include/elf.h > ++++ b/include/elf.h > +@@ -259,6 +259,7 @@ typedef struct > + #define EM_ARC_A5 93 /* ARC Cores Tangent-A5 */ > + #define EM_XTENSA 94 /* Tensilica Xtensa Architecture */ > + #define EM_AARCH64 183 /* ARM AARCH64 */ > ++#define EM_RISCV 243 /* RISC-V */ > + #define EM_LOONGARCH 258 /* Loongson Loongarch*/ > + #define EM_NUM 184 > + > +--- a/kexec/Makefile > ++++ b/kexec/Makefile > +@@ -92,6 +92,7 @@ include $(srcdir)/kexec/arch/mips/Makefi > + include $(srcdir)/kexec/arch/cris/Makefile > + include $(srcdir)/kexec/arch/ppc/Makefile > + include $(srcdir)/kexec/arch/ppc64/Makefile > ++include $(srcdir)/kexec/arch/riscv/Makefile > + include $(srcdir)/kexec/arch/s390/Makefile > + include $(srcdir)/kexec/arch/sh/Makefile > + include $(srcdir)/kexec/arch/x86_64/Makefile > +--- /dev/null > ++++ b/kexec/arch/riscv/Makefile > +@@ -0,0 +1,35 @@ > ++# > ++# kexec riscv > ++# > ++riscv_KEXEC_SRCS = kexec/arch/riscv/kexec-riscv.c > ++riscv_KEXEC_SRCS += kexec/arch/riscv/kexec-elf-riscv.c > ++riscv_KEXEC_SRCS += kexec/arch/riscv/crashdump-riscv.c > ++ > ++riscv_MEM_REGIONS = kexec/mem_regions.c > ++ > ++riscv_DT_OPS += kexec/dt-ops.c > ++ > ++riscv_ARCH_REUSE_INITRD = > ++ > ++riscv_CPPFLAGS += -I $(srcdir)/kexec/ > ++ > ++dist += kexec/arch/riscv/Makefile $(riscv_KEXEC_SRCS) \ > ++ kexec/arch/riscv/kexec-riscv.h \ > ++ kexec/arch/riscv/include/arch/options.h > ++ > ++ifdef HAVE_LIBFDT > ++ > ++LIBS += -lfdt > ++ > ++else > ++ > ++include $(srcdir)/kexec/libfdt/Makefile.libfdt > ++ > ++libfdt_SRCS += $(LIBFDT_SRCS:%=kexec/libfdt/%) > ++ > ++riscv_CPPFLAGS += -I$(srcdir)/kexec/libfdt > ++ > ++riscv_KEXEC_SRCS += $(libfdt_SRCS) > ++ > ++endif > ++ > +--- /dev/null > ++++ b/kexec/arch/riscv/crashdump-riscv.c > +@@ -0,0 +1,140 @@ > ++#include <errno.h> > ++#include <linux/elf.h> > ++#include <unistd.h> > ++ > ++#include "kexec.h" > ++#include "crashdump.h" > ++#include "kexec-elf.h" > ++#include "mem_regions.h" > ++ > ++static struct crash_elf_info elf_info = { > ++#if __riscv_xlen == 64 > ++ .class = ELFCLASS64, > ++#else > ++ .class = ELFCLASS32, > ++#endif > ++ .data = ELFDATA2LSB, > ++ .machine = EM_RISCV, > ++}; > ++ > ++static struct memory_ranges crash_mem_ranges = {0}; > ++struct memory_range elfcorehdr_mem = {0}; > ++ > ++static unsigned long long get_page_offset(struct kexec_info *info) > ++{ > ++ unsigned long long vaddr_off = 0; > ++ unsigned long long page_size = sysconf(_SC_PAGESIZE); > ++ unsigned long long init_start = get_kernel_sym("_sinittext"); > ++ > ++ /* > ++ * Begining of init section is aligned to page size > ++ */ > ++ vaddr_off = init_start - page_size; > ++ > ++ return vaddr_off; > ++} > ++ > ++int load_elfcorehdr(struct kexec_info *info) > ++{ > ++ struct memory_range crashkern_range = {0}; > ++ struct memory_range *ranges = NULL; > ++ unsigned long start = 0; > ++ unsigned long end = 0; > ++ unsigned long buf_size = 0; > ++ unsigned long elfcorehdr_addr = 0; > ++ void* buf = NULL; > ++ int i = 0; > ++ int ret = 0; > ++ > ++ ret = parse_iomem_single("Kernel code\n", &start, NULL); > ++ if (ret) { > ++ fprintf(stderr, "Cannot determine kernel physical base > addr\n"); > ++ return -EINVAL; > ++ } > ++ elf_info.kern_paddr_start = start; > ++ > ++ ret = parse_iomem_single("Kernel bss\n", NULL, &end); > ++ if (ret) { > ++ fprintf(stderr, "Cannot determine kernel physical bss > addr\n"); > ++ return -EINVAL; > ++ } > ++ elf_info.kern_paddr_start = start; > ++ elf_info.kern_size = end - start; > ++ > ++ elf_info.kern_vaddr_start = get_kernel_sym("_text"); > ++ if (!elf_info.kern_vaddr_start) { > ++ elf_info.kern_vaddr_start = UINT64_MAX; > ++ } > ++ > ++ elf_info.page_offset = get_page_offset(info); > ++ dbgprintf("page_offset: %016llx\n", elf_info.page_offset); > ++ > ++ ret = parse_iomem_single("Crash kernel\n", &start, &end); > ++ if (ret) { > ++ fprintf(stderr, "Cannot determine kernel physical bss > addr\n"); > ++ return -EINVAL; > ++ } > ++ crashkern_range.start = start; > ++ crashkern_range.end = end; > ++ crashkern_range.type = RANGE_RESERVED; > ++ > ++ ranges = info->memory_range; > ++ for (i = 0; i < info->memory_ranges; i++) { > ++ ret = mem_regions_alloc_and_add(&crash_mem_ranges, > ++ ranges[i].start, > ++ ranges[i].end - > ranges[i].start, > ++ ranges[i].type); > ++ if (ret ) { > ++ fprintf(stderr, "Could not create > crash_mem_ranges\n"); > ++ return ret; > ++ } > ++ } > ++ > ++ ret = mem_regions_alloc_and_exclude(&crash_mem_ranges, > ++ &crashkern_range); > ++ if (ret) { > ++ fprintf(stderr, "Could not exclude crashkern_range\n"); > ++ return ret; > ++ } > ++ > ++#if __riscv_xlen == 64 > ++ crash_create_elf64_headers(info, &elf_info, crash_mem_ranges.ranges, > ++ crash_mem_ranges.size, &buf, &buf_size, > ++ ELF_CORE_HEADER_ALIGN); > ++ > ++#else > ++ crash_create_elf32_headers(info, &elf_info, crash_mem_ranges.ranges, > ++ crash_mem_ranges.size, &buf, &buf_size, > ++ ELF_CORE_HEADER_ALIGN); > ++#endif > ++ > ++ > ++ elfcorehdr_addr = add_buffer_phys_virt(info, buf, buf_size, > ++ buf_size, 0, > ++ crashkern_range.start, > ++ crashkern_range.end, > ++ -1, 0); > ++ > ++ elfcorehdr_mem.start = elfcorehdr_addr; > ++ elfcorehdr_mem.end = elfcorehdr_addr + buf_size - 1; > ++ > ++ dbgprintf("%s: elfcorehdr 0x%llx-0x%llx\n", __func__, > ++ elfcorehdr_mem.start, elfcorehdr_mem.end); > ++ > ++ return 0; > ++} > ++ > ++int is_crashkernel_mem_reserved(void) > ++{ > ++ uint64_t start = 0; > ++ uint64_t end = 0; > ++ > ++ return parse_iomem_single("Crash kernel\n", &start, &end) == 0 ? > ++ (start != end) : 0; > ++} > ++ > ++int get_crash_kernel_load_range(uint64_t *start, uint64_t *end) > ++{ > ++ return parse_iomem_single("Crash kernel\n", start, end); > ++} > ++ > +--- /dev/null > ++++ b/kexec/arch/riscv/include/arch/options.h > +@@ -0,0 +1,43 @@ > ++#ifndef KEXEC_ARCH_RISCV_OPTIONS_H > ++#define KEXEC_ARCH_RISCV_OPTIONS_H > ++ > ++#define OPT_APPEND ((OPT_MAX)+0) > ++#define OPT_DTB ((OPT_MAX)+1) > ++#define OPT_INITRD ((OPT_MAX)+2) > ++#define OPT_CMDLINE ((OPT_MAX)+3) > ++#define OPT_REUSE_CMDLINE ((OPT_MAX)+4) > ++#define OPT_ARCH_MAX ((OPT_MAX)+5) > ++ > ++/* Options relevant to the architecture (excluding loader-specific ones), > ++ * in this case none: > ++ */ > ++#define KEXEC_ARCH_OPTIONS \ > ++ KEXEC_OPTIONS \ > ++ { "append", 1, 0, OPT_APPEND}, \ > ++ { "dtb", 1, 0, OPT_DTB }, \ > ++ { "initrd", 1, 0, OPT_INITRD }, \ > ++ { "command-line", 1, 0, OPT_CMDLINE}, \ > ++ { "reuse-cmdline", 0, NULL, OPT_REUSE_CMDLINE }, \ > ++ > ++ > ++#define KEXEC_ARCH_OPT_STR KEXEC_OPT_STR "" > ++ > ++/* The following two #defines list ALL of the options added by all of the > ++ * architecture's loaders. > ++ * o main() uses this complete list to scan for its options, ignoring > ++ * arch-specific/loader-specific ones. > ++ * o Then, arch_process_options() uses this complete list to scan for its > ++ * options, ignoring general/loader-specific ones. > ++ * o Then, the file_type[n].load re-scans for options, using > ++ * KEXEC_ARCH_OPTIONS plus its loader-specific options subset. > ++ * Any unrecognised options cause an error here. > ++ * > ++ * This is done so that main()'s/arch_process_options()'s getopt_long() > calls > ++ * don't choose a kernel filename from random arguments to options they > don't > ++ * recognise -- as they now recognise (if not act upon) all possible > options. > ++ */ > ++#define KEXEC_ALL_OPTIONS KEXEC_ARCH_OPTIONS > ++ > ++#define KEXEC_ALL_OPT_STR KEXEC_ARCH_OPT_STR > ++ > ++#endif /* KEXEC_ARCH_RISCV_OPTIONS_H */ > +--- /dev/null > ++++ b/kexec/arch/riscv/kexec-elf-riscv.c > +@@ -0,0 +1,255 @@ > ++/* SPDX-License-Identifier: GPL-2.0 */ > ++/* > ++ * Copyright (C) 2019 FORTH-ICS/CARV > ++ * Nick Kossifidis <[email protected]> > ++ */ > ++ > ++#include "kexec.h" > ++#include "dt-ops.h" /* For dtb_set/clear_initrd() */ > ++#include <elf.h> /* For ELF header handling */ > ++#include <errno.h> /* For EFBIG/EINVAL */ > ++#include <unistd.h> /* For getpagesize() */ > ++#include "kexec-syscall.h" /* For KEXEC_ON_CRASH */ > ++#include "kexec-riscv.h" > ++ > ++ > ++/*********\ > ++* HELPERS * > ++\*********/ > ++ > ++/* > ++ * Go through the available physical memory regions and > ++ * find one that can hold an image of the specified size. > ++ * Note: This is called after get_memory_ranges so > ++ * info->memory_range[] should be populated. Also note that > ++ * memory ranges are sorted, so we'll return the first region > ++ * that's big enough for holding the image. > ++ */ > ++static int elf_riscv_find_pbase(struct kexec_info *info, off_t *addr, > ++ off_t size) > ++{ > ++ int i = 0; > ++ off_t start = 0; > ++ off_t end = 0; > ++ int ret = 0; > ++ > ++ /* > ++ * If this image is for a crash kernel, use the region > ++ * the primary kernel has already reserved for us. > ++ */ > ++ if (info->kexec_flags & KEXEC_ON_CRASH) { > ++ ret = get_crash_kernel_load_range((uint64_t *) &start, > ++ (uint64_t *) &end); > ++ if (!ret) { > ++ /* > ++ * Kernel should be aligned to the nearest > ++ * hugepage (2MB for RV64, 4MB for RV32). > ++ */ > ++#if __riscv_xlen == 64 > ++ start = _ALIGN_UP(start, 0x200000); > ++#else > ++ start = _ALIGN_UP(start, 0x400000); > ++#endif > ++ if (end > start && ((end - start) >= size)) { > ++ *addr = start; > ++ return 0; > ++ } > ++ > ++ return -EFBIG; > ++ } else > ++ return ENOCRASHKERNEL; > ++ } > ++ > ++ for (i = 0; i < info->memory_ranges; i++) { > ++ if (info->memory_range[i].type != RANGE_RAM) > ++ continue; > ++ > ++ start = info->memory_range[i].start; > ++ end = info->memory_range[i].end; > ++ > ++#if __riscv_xlen == 64 > ++ start = _ALIGN_UP(start, 0x200000); > ++#else > ++ start = _ALIGN_UP(start, 0x400000); > ++#endif > ++ > ++ if (end > start && ((end - start) >= size)) { > ++ *addr = start; > ++ return 0; > ++ } > ++ } > ++ > ++ return -EFBIG; > ++} > ++ > ++/**************\ > ++* ENTRY POINTS * > ++\**************/ > ++ > ++int elf_riscv_probe(const char *buf, off_t len) > ++{ > ++ struct mem_ehdr ehdr = {0}; > ++ int ret = 0; > ++ > ++ ret = build_elf_exec_info(buf, len, &ehdr, 0); > ++ if (ret < 0) > ++ goto cleanup; > ++ > ++ if (ehdr.e_machine != EM_RISCV) { > ++ fprintf(stderr, "Not for this architecture.\n"); > ++ ret = -EINVAL; > ++ goto cleanup; > ++ } > ++ > ++ ret = 0; > ++ > ++ cleanup: > ++ free_elf_info(&ehdr); > ++ return ret; > ++} > ++ > ++void elf_riscv_usage(void) > ++{ > ++} > ++ > ++int elf_riscv_load(int argc, char **argv, const char *buf, off_t len, > ++ struct kexec_info *info) > ++{ > ++ struct mem_ehdr ehdr = {0}; > ++ struct mem_phdr *phdr = NULL; > ++ off_t new_base_addr = 0; > ++ off_t kernel_size = 0; > ++ off_t page_size = getpagesize(); > ++ off_t max_addr = 0; > ++ off_t old_base_addr = 0; > ++ off_t old_start_addr = 0; > ++ int i = 0; > ++ int ret = 0; > ++ > ++ if (info->file_mode) { > ++ fprintf(stderr, "kexec_file not supported on this " > ++ "architecture\n"); > ++ return -EINVAL; > ++ } > ++ > ++ /* Parse the ELF file */ > ++ ret = build_elf_exec_info(buf, len, &ehdr, 0); > ++ if (ret < 0) { > ++ fprintf(stderr, "ELF exec parse failed\n"); > ++ return -EINVAL; > ++ } > ++ > ++ max_addr = elf_max_addr(&ehdr); > ++ old_base_addr = max_addr; > ++ old_start_addr = max_addr; > ++ > ++ /* > ++ * Get the memory footprint, base physical > ++ * and start address of the ELF image > ++ */ > ++ for (i = 0; i < ehdr.e_phnum; i++) { > ++ phdr = &ehdr.e_phdr[i]; > ++ if (phdr->p_type != PT_LOAD) > ++ continue; > ++ > ++ /* > ++ * Note: According to ELF spec the loadable regions > ++ * are sorted on p_vaddr, not p_paddr. > ++ */ > ++ if (old_base_addr > phdr->p_paddr) > ++ old_base_addr = phdr->p_paddr; > ++ > ++ if (phdr->p_vaddr == ehdr.e_entry || > ++ phdr->p_paddr == ehdr.e_entry) > ++ old_start_addr = phdr->p_paddr; > ++ > ++ kernel_size += _ALIGN_UP(phdr->p_memsz, page_size); > ++ } > ++ > ++ if (old_base_addr == max_addr || kernel_size == 0) { > ++ fprintf(stderr, "No loadable segments present on the " > ++ "provided ELF image\n"); > ++ return -EINVAL; > ++ } > ++ > ++ if (old_start_addr == max_addr) { > ++ fprintf(stderr, "Could not find the entry point address of " > ++ "provided ELF image\n"); > ++ return -EINVAL; > ++ } > ++ > ++ dbgprintf("Got ELF with total memsz %luKB\n" > ++ "Base paddr: 0x%lX, start_addr: 0x%lX\n", > ++ kernel_size / 1024, old_base_addr, old_start_addr); > ++ > ++ /* Get a continuous physical region that can hold the kernel */ > ++ ret = elf_riscv_find_pbase(info, &new_base_addr, kernel_size); > ++ if (ret < 0) { > ++ fprintf(stderr, "Could not find a memory region for the " > ++ "provided ELF image\n"); > ++ return ret; > ++ } > ++ > ++ dbgprintf("New base paddr for the ELF: 0x%lX\n", new_base_addr); > ++ > ++ /* Re-set the base physical address of the ELF */ > ++ for (i = 0; i < ehdr.e_phnum; i++) { > ++ phdr = &ehdr.e_phdr[i]; > ++ if (phdr->p_type != PT_LOAD) > ++ continue; > ++ > ++ phdr->p_paddr -= old_base_addr; > ++ phdr->p_paddr += new_base_addr; > ++ } > ++ > ++ /* Re-set the entry point address */ > ++ ehdr.e_entry = (old_start_addr - old_base_addr) + new_base_addr; > ++ info->entry = (void *) ehdr.e_entry; > ++ dbgprintf("New entry point for the ELF: 0x%llX\n", ehdr.e_entry); > ++ > ++ > ++ /* Load the ELF executable */ > ++ ret = elf_exec_load(&ehdr, info); > ++ if (ret < 0) { > ++ fprintf(stderr, "ELF exec load failed\n"); > ++ return ret; > ++ } > ++ > ++ ret = load_extra_segments(info, new_base_addr, > ++ kernel_size, max_addr); > ++ return ret; > ++} > ++ > ++ > ++/*******\ > ++* STUBS * > ++\*******/ > ++ > ++int machine_verify_elf_rel(struct mem_ehdr *ehdr) > ++{ > ++ if (ehdr->ei_data != ELFDATA2LSB) > ++ return 0; > ++#if __riscv_xlen == 64 > ++ if (ehdr->ei_class != ELFCLASS64) > ++#else > ++ if (ehdr->ei_class != ELFCLASS32) > ++#endif > ++ return 0; > ++ if (ehdr->e_machine != EM_RISCV) > ++ return 0; > ++ return 1; > ++} > ++ > ++void machine_apply_elf_rel(struct mem_ehdr *UNUSED(ehdr), > ++ struct mem_sym *UNUSED(sym), > ++ unsigned long r_type, > ++ void *UNUSED(location), > ++ unsigned long UNUSED(address), > ++ unsigned long UNUSED(value)) > ++{ > ++ switch (r_type) { > ++ default: > ++ die("Unknown rela relocation: %lu\n", r_type); > ++ break; > ++ } > ++} > +--- /dev/null > ++++ b/kexec/arch/riscv/kexec-riscv.c > +@@ -0,0 +1,364 @@ > ++/* SPDX-License-Identifier: GPL-2.0 */ > ++/* > ++ * Copyright (C) 2019 FORTH-ICS/CARV > ++ * Nick Kossifidis <[email protected]> > ++ */ > ++ > ++#include "kexec-syscall.h" /* For KEXEC_ARCH_RISCV */ > ++#include "kexec.h" /* For OPT_MAX and concat_cmdline() */ > ++#include "mem_regions.h" /* For mem_regions_sort() */ > ++#include "dt-ops.h" /* For dtb_set_bootargs() */ > ++#include <arch/options.h> /* For KEXEC_ARCH_OPTIONS */ > ++#include <getopt.h> /* For struct option */ > ++#include <sys/stat.h> /* For stat() and struct stat */ > ++#include <stdlib.h> /* For free() */ > ++#include <errno.h> /* For EINVAL */ > ++#include <libfdt.h> /* For DeviceTree handling */ > ++#include "kexec-riscv.h" > ++ > ++const struct arch_map_entry arches[] = { > ++ { "riscv32", KEXEC_ARCH_RISCV }, > ++ { "riscv64", KEXEC_ARCH_RISCV }, > ++ { NULL, 0 }, > ++}; > ++ > ++ > ++struct file_type file_type[] = { > ++ {"elf-riscv", elf_riscv_probe, elf_riscv_load, elf_riscv_usage}, > ++}; > ++int file_types = sizeof(file_type) / sizeof(file_type[0]); > ++ > ++static const char riscv_opts_usage[] = > ++" --append=STRING Append STRING to the kernel command line.\n" > ++" --dtb=FILE Use FILE as the device tree blob.\n" > ++" --initrd=FILE Use FILE as the kernel initial ramdisk.\n" > ++" --cmdline=STRING Use STRING as the kernel's command line.\n" > ++" --reuse-cmdline Use kernel command line from running > system.\n"; > ++ > ++static struct riscv_opts arch_options = {0}; > ++static struct fdt_image provided_fdt = {0}; > ++static struct memory_ranges sysmem_ranges = {0}; > ++ > ++/****************\ > ++* COMMON HELPERS * > ++\****************/ > ++ > ++int load_extra_segments(struct kexec_info *info, uint64_t kernel_base, > ++ uint64_t kernel_size, uint64_t max_addr) > ++{ > ++ struct fdt_image *fdt = arch_options.fdt; > ++ char *initrd_buf = NULL; > ++ off_t initrd_size = 0; > ++ uint64_t initrd_base = 0; > ++ uint64_t start = 0; > ++ uint64_t end = 0; > ++ uint64_t min_usable = kernel_base + kernel_size; > ++ uint64_t max_usable = max_addr; > ++ int ret = 0; > ++ > ++ /* Prepare the device tree */ > ++ if (info->kexec_flags & KEXEC_ON_CRASH) { > ++ ret = load_elfcorehdr(info); > ++ if (ret) { > ++ fprintf(stderr, "Couldn't create elfcorehdr\n"); > ++ return ret; > ++ } > ++ > ++ ret = dtb_add_range_property(&fdt->buf, &fdt->size, > ++ elfcorehdr_mem.start, > elfcorehdr_mem.end, > ++ "chosen", "linux,elfcorehdr"); > ++ if (ret) { > ++ fprintf(stderr, "Couldn't add elfcorehdr to fdt\n"); > ++ return ret; > ++ } > ++ > ++ ret = get_crash_kernel_load_range(&start, &end); > ++ if (ret) { > ++ fprintf(stderr, "Couldn't get crashkenel region\n"); > ++ return ret; > ++ } > ++ > ++ ret = dtb_add_range_property(&fdt->buf, &fdt->size, start, > end, > ++ "memory", "linux,usable-memory"); > ++ if (ret) { > ++ fprintf(stderr, "Couldn't add usable-memory to > fdt\n"); > ++ return ret; > ++ } > ++ > ++ max_usable = end; > ++ } else { > ++ /* > ++ * Make sure we remove elfcorehdr and usable-memory > ++ * when switching from crash kernel to a normal one. > ++ */ > ++ dtb_delete_property(fdt->buf, "chosen", "linux,elfcorehdr"); > ++ dtb_delete_property(fdt->buf, "memory", > "linux,usable-memory"); > ++ } > ++ > ++ /* Do we need to include an initrd image ? */ > ++ if (!arch_options.initrd_path && !arch_options.initrd_end) > ++ dtb_clear_initrd(&fdt->buf, &fdt->size); > ++ else if (arch_options.initrd_path) { > ++ if (arch_options.initrd_end) > ++ fprintf(stderr, "Warning: An initrd image was > provided" > ++ ", will ignore reuseinitrd\n"); > ++ > ++ initrd_buf = slurp_file(arch_options.initrd_path, > ++ &initrd_size); > ++ if (!initrd_buf) { > ++ fprintf(stderr, "Couldn't read provided initrd\n"); > ++ return -EINVAL; > ++ } > ++ > ++ initrd_base = add_buffer_phys_virt(info, initrd_buf, > ++ initrd_size, > ++ initrd_size, 0, > ++ min_usable, > ++ max_usable, -1, 0); > ++ > ++ dtb_set_initrd(&fdt->buf, &fdt->size, initrd_base, > ++ initrd_base + initrd_size); > ++ > ++ dbgprintf("Base addr for initrd image: 0x%lX\n", initrd_base); > ++ min_usable = initrd_base; > ++ } > ++ > ++ /* Add device tree */ > ++ add_buffer_phys_virt(info, fdt->buf, fdt->size, fdt->size, 0, > ++ min_usable, max_usable, -1, 0); > ++ > ++ return 0; > ++} > ++ > ++ > ++/**************\ > ++* ENTRY POINTS * > ++\**************/ > ++ > ++void arch_usage(void) > ++{ > ++ printf(riscv_opts_usage); > ++} > ++ > ++int arch_process_options(int argc, char **argv) > ++{ > ++ static const struct option options[] = { > ++ KEXEC_ARCH_OPTIONS > ++ { 0 }, > ++ }; > ++ static const char short_options[] = KEXEC_ARCH_OPT_STR; > ++ struct stat st = {0}; > ++ char *append = NULL; > ++ char *cmdline = NULL; > ++ void *tmp = NULL; > ++ off_t tmp_size = 0; > ++ int opt = 0; > ++ int ret = 0; > ++ > ++ while ((opt = getopt_long(argc, argv, short_options, > ++ options, 0)) != -1) { > ++ switch (opt) { > ++ case OPT_APPEND: > ++ append = optarg; > ++ break; > ++ case OPT_CMDLINE: > ++ if (cmdline) > ++ fprintf(stderr, > ++ "Warning: Kernel's cmdline " > ++ "set twice !\n"); > ++ cmdline = optarg; > ++ break; > ++ case OPT_REUSE_CMDLINE: > ++ if (cmdline) > ++ fprintf(stderr, > ++ "Warning: Kernel's cmdline " > ++ "set twice !\n"); > ++ cmdline = get_command_line(); > ++ break; > ++ case OPT_DTB: > ++ ret = stat(optarg, &st); > ++ if (ret) { > ++ fprintf(stderr, > ++ "Could not find the provided dtb > !\n"); > ++ return -EINVAL; > ++ } > ++ arch_options.fdt_path = optarg; > ++ break; > ++ case OPT_INITRD: > ++ ret = stat(optarg, &st); > ++ if (ret) { > ++ fprintf(stderr, > ++ "Could not find the provided " > ++ "initrd image !\n"); > ++ return -EINVAL; > ++ } > ++ arch_options.initrd_path = optarg; > ++ break; > ++ default: > ++ break; > ++ } > ++ } > ++ > ++ /* Handle Kernel's command line */ > ++ if (append && !cmdline) > ++ fprintf(stderr, "Warning: No cmdline provided, " > ++ "using append string as cmdline\n"); > ++ if (!append && !cmdline) > ++ fprintf(stderr, "Warning: No cmdline or append string " > ++ "provided\n"); > ++ > ++ if (append || cmdline) > ++ /* > ++ * Note that this also handles the case where "cmdline" > ++ * or "append" is NULL. > ++ */ > ++ arch_options.cmdline = concat_cmdline(cmdline, append); > ++ > ++ /* Handle FDT image */ > ++ if (!arch_options.fdt_path) { > ++ ret = stat("/sys/firmware/fdt", &st); > ++ if (ret) { > ++ fprintf(stderr, "No dtb provided and " > ++ "/sys/firmware/fdt is not present\n"); > ++ return -EINVAL; > ++ } > ++ fprintf(stderr, "Warning: No dtb provided, " > ++ "using /sys/firmware/fdt\n"); > ++ arch_options.fdt_path = "/sys/firmware/fdt"; > ++ } > ++ > ++ tmp = slurp_file(arch_options.fdt_path, &tmp_size); > ++ if (!tmp) { > ++ fprintf(stderr, "Couldn't read provided fdt\n"); > ++ return -EINVAL; > ++ } > ++ > ++ ret = fdt_check_header(tmp); > ++ if (ret) { > ++ fprintf(stderr, "Got an ivalid fdt image !\n"); > ++ free(tmp); > ++ return -EINVAL; > ++ } > ++ provided_fdt.buf = tmp; > ++ provided_fdt.size = tmp_size; > ++ > ++ if (arch_options.cmdline) { > ++ ret = dtb_set_bootargs(&provided_fdt.buf, &provided_fdt.size, > ++ arch_options.cmdline); > ++ if (ret < 0) { > ++ fprintf(stderr, "Could not set bootargs on " > ++ "the fdt image\n"); > ++ return ret; > ++ } > ++ } > ++ > ++ arch_options.fdt = &provided_fdt; > ++ > ++ return 0; > ++} > ++ > ++/* > ++ * This one is called after arch_process_options so we already > ++ * have an fdt image in place. > ++ */ > ++void arch_reuse_initrd(void) > ++{ > ++ const uint32_t *prop32 = NULL; > ++ uint32_t addr_cells = 0; > ++ const void *prop = 0; > ++ int prop_size = 0; > ++ uint64_t initrd_start = 0; > ++ uint64_t initrd_end = 0; > ++ int chosen_offset = 0; > ++ struct fdt_image *fdt = &provided_fdt; > ++ > ++ chosen_offset = fdt_subnode_offset(fdt->buf, 0, "chosen"); > ++ if (chosen_offset < 0) { > ++ fprintf(stderr, "No /chosen node found on fdt image " > ++ "unable to reuse initrd\n"); > ++ return; > ++ } > ++ > ++ prop32 = fdt_getprop(fdt->buf, 0, "#address-cells", NULL); > ++ if (!prop32) { > ++ fprintf(stderr, "No #address-cells property on root node\n"); > ++ return; > ++ } > ++ addr_cells = be32_to_cpu(*prop32); > ++ > ++ prop = fdt_getprop(fdt->buf, chosen_offset, > ++ "linux,initrd-start", &prop_size); > ++ if (!prop) { > ++ fprintf(stderr, "Could not get linux,initrd-start\n"); > ++ return; > ++ } > ++ dtb_extract_int_property(&initrd_start, prop, addr_cells); > ++ > ++ prop = fdt_getprop(fdt->buf, chosen_offset, > ++ "linux,initrd-end", &prop_size); > ++ if (!prop) { > ++ fprintf(stderr, "Could not get linux,initrd-end\n"); > ++ return; > ++ } > ++ dtb_extract_int_property(&initrd_end, prop, addr_cells); > ++ > ++ arch_options.initrd_start = initrd_start; > ++ arch_options.initrd_end = initrd_end; > ++ dbgprintf("initrd_start: 0x%lX, initrd_end: 0x%lX\n", > ++ initrd_start, initrd_end); > ++ > ++} > ++ > ++int get_memory_ranges(struct memory_range **range, int *num_ranges, > ++ unsigned long kexec_flags) > ++{ > ++ const struct fdt_image *fdt = &provided_fdt; > ++ struct memory_ranges *extra_ranges = NULL; > ++ int i = 0; > ++ int ret = 0; > ++ > ++ if (arch_options.initrd_start && arch_options.initrd_end) { > ++ int initrd_size = arch_options.initrd_end - > arch_options.initrd_start; > ++ dbgprintf("Marking current intird image as reserved\n"); > ++ ret = mem_regions_alloc_and_add(extra_ranges, > ++ arch_options.initrd_start, > ++ initrd_size, > ++ RANGE_RESERVED); > ++ if (ret) > ++ return ret; > ++ } > ++ > ++ ret = dtb_get_memory_ranges(fdt->buf, &sysmem_ranges, extra_ranges); > ++ if (ret) { > ++ fprintf(stderr, "Could not get memory ranges from device tree > (%i) !\n", ret); > ++ return ret; > ++ } > ++ > ++ *range = sysmem_ranges.ranges; > ++ *num_ranges = sysmem_ranges.size; > ++ > ++ dbgprintf("Memory regions:\n"); > ++ for (i = 0; i < sysmem_ranges.size; i++) { > ++ dbgprintf("\t0x%llx - 0x%llx : %s (%i)\n", > ++ sysmem_ranges.ranges[i].start, > ++ sysmem_ranges.ranges[i].end, > ++ sysmem_ranges.ranges[i].type == RANGE_RESERVED ? > ++ "RANGE_RESERVED" : "RANGE_RAM", > ++ sysmem_ranges.ranges[i].type); > ++ } > ++ > ++ return 0; > ++} > ++ > ++/*******\ > ++* STUBS * > ++\*******/ > ++ > ++int arch_compat_trampoline(struct kexec_info *UNUSED(info)) > ++{ > ++ return 0; > ++} > ++ > ++void arch_update_purgatory(struct kexec_info *UNUSED(info)) > ++{ > ++} > +--- /dev/null > ++++ b/kexec/arch/riscv/kexec-riscv.h > +@@ -0,0 +1,32 @@ > ++/* SPDX-License-Identifier: GPL-2.0 */ > ++/* > ++ * Copyright (C) 2019 FORTH-ICS/CARV > ++ * Nick Kossifidis <[email protected]> > ++ */ > ++ > ++struct fdt_image { > ++ char *buf; > ++ off_t size; > ++}; > ++ > ++struct riscv_opts { > ++ char *cmdline; > ++ char *fdt_path; > ++ char *initrd_path; > ++ uint64_t initrd_start; > ++ uint64_t initrd_end; > ++ struct fdt_image *fdt; > ++}; > ++ > ++/* crashdump-riscv.c */ > ++extern struct memory_range elfcorehdr_mem; > ++int load_elfcorehdr(struct kexec_info *info); > ++ > ++/* kexec-riscv.c */ > ++int load_extra_segments(struct kexec_info *info, uint64_t kernel_base, > ++ uint64_t kernel_size, uint64_t max_addr); > ++ > ++int elf_riscv_probe(const char *buf, off_t len); > ++void elf_riscv_usage(void); > ++int elf_riscv_load(int argc, char **argv, const char *buf, off_t len, > ++ struct kexec_info *info); > +--- a/kexec/dt-ops.c > ++++ b/kexec/dt-ops.c > +@@ -4,9 +4,11 @@ > + #include <libfdt.h> > + #include <stdio.h> > + #include <stdlib.h> > ++#include <stdbool.h> > + > + #include "kexec.h" > + #include "dt-ops.h" > ++#include "mem_regions.h" > + > + static const char n_chosen[] = "chosen"; > + > +@@ -174,3 +176,441 @@ int dtb_delete_property(char *dtb, const > + free(new_node); > + return result; > + } > ++ > ++static int dtb_get_num_cells(char *dtb, int nodeoffset, uint32_t > *addr_cells, > ++ uint32_t *size_cells, bool recursive) > ++{ > ++ const uint32_t *prop32 = NULL; > ++ int curr_offset = nodeoffset; > ++ int prop_len = 0; > ++ *addr_cells = 0; > ++ *size_cells = 0; > ++ > ++ do { > ++ prop32 = fdt_getprop(dtb, curr_offset, "#address-cells", > &prop_len); > ++ curr_offset = fdt_parent_offset(dtb, curr_offset); > ++ } while (!prop32 && prop_len == -FDT_ERR_NOTFOUND && recursive); > ++ > ++ if (!prop32) { > ++ dbgprintf("Could not get #address-cells property for %s > (%s)\n", > ++ fdt_get_name(dtb, nodeoffset, NULL), > fdt_strerror(nodeoffset)); > ++ return -EINVAL; > ++ } > ++ *addr_cells = fdt32_to_cpu(*prop32); > ++ > ++ curr_offset = nodeoffset; > ++ do { > ++ prop32 = fdt_getprop(dtb, curr_offset, "#size-cells", > &prop_len); > ++ curr_offset = fdt_parent_offset(dtb, curr_offset); > ++ } while (!prop32 && prop_len == -FDT_ERR_NOTFOUND && recursive); > ++ > ++ if (!prop32) { > ++ dbgprintf("Could not get #size-cells property for %s (%s)\n", > ++ fdt_get_name(dtb, nodeoffset, NULL), > fdt_strerror(nodeoffset)); > ++ return -EINVAL; > ++ } > ++ *size_cells = fdt32_to_cpu(*prop32); > ++ > ++ dbgprintf("%s: #address-cells:%d #size-cells:%d\n", > ++ fdt_get_name(dtb, nodeoffset, NULL), *addr_cells, > *size_cells); > ++ > ++ return 0; > ++} > ++ > ++void dtb_extract_int_property(uint64_t *val, const void *buf, uint32_t > cells) > ++{ > ++ const uint32_t *prop32 = NULL; > ++ const uint64_t *prop64 = NULL; > ++ > ++ if (cells == 1) { > ++ prop32 = (const uint32_t *) buf; > ++ *val = (uint64_t) be32_to_cpu(*prop32); > ++ } else { > ++ /* Skip any leading cells */ > ++ prop64 = (const uint64_t *) (uint32_t *)buf + cells - 2; > ++ *val = (uint64_t) be64_to_cpu(*prop64); > ++ } > ++} > ++ > ++void dtb_fill_int_property(void *buf, uint64_t val, uint32_t cells) > ++{ > ++ uint32_t prop32 = 0; > ++ uint64_t prop64 = 0; > ++ > ++ if (cells == 1) { > ++ prop32 = cpu_to_fdt32((uint32_t) val); > ++ memcpy(buf, &prop32, sizeof(uint32_t)); > ++ } else { > ++ prop64 = cpu_to_fdt64(val); > ++ /* Skip any leading cells */ > ++ memcpy((uint64_t *)(uint32_t *)buf + cells - 2, > ++ &prop64, sizeof(uint64_t)); > ++ } > ++} > ++ > ++int dtb_add_range_property(char **dtb, off_t *dtb_size, uint64_t start, > uint64_t end, > ++ const char *parent, const char *name) > ++{ > ++ uint32_t addr_cells = 0; > ++ uint32_t size_cells = 0; > ++ char *nodepath = NULL; > ++ void *prop = NULL; > ++ int nodeoffset = 0; > ++ int prop_size = 0; > ++ int ret = 0; > ++ > ++ nodepath = malloc(strlen("/") + strlen(parent) + 1); > ++ if (!nodepath) { > ++ dbgprintf("%s: malloc failed\n", __func__); > ++ return -ENOMEM; > ++ } > ++ > ++ strcpy(nodepath, "/"); > ++ strcat(nodepath, parent); > ++ > ++ nodeoffset = fdt_path_offset(*dtb, nodepath); > ++ if (nodeoffset < 0) { > ++ dbgprintf("%s: fdt_path_offset(%s) failed: %s\n", __func__, > ++ nodepath, fdt_strerror(nodeoffset)); > ++ free(nodepath); > ++ return nodeoffset; > ++ } > ++ free(nodepath); > ++ > ++ ret = dtb_get_num_cells(*dtb, nodeoffset, &addr_cells, &size_cells, > true); > ++ if (ret < 0) > ++ return ret; > ++ > ++ /* Can the range fit with the given address/size cells ? */ > ++ if ((addr_cells == 1) && (start >= (1ULL << 32))) > ++ return -EINVAL; > ++ > ++ if ((size_cells == 1) && ((end - start + 1) >= (1ULL << 32))) > ++ return -EINVAL; > ++ > ++ prop_size = sizeof(uint32_t) * (addr_cells + size_cells); > ++ prop = malloc(prop_size); > ++ > ++ dtb_fill_int_property(prop, start, addr_cells); > ++ dtb_fill_int_property((void *)((uint32_t *)prop + addr_cells), > ++ end - start + 1, size_cells); > ++ > ++ /* Add by node path name */ > ++ return dtb_set_property(dtb, dtb_size, parent, name, prop, prop_size); > ++} > ++ > ++/************************\ > ++* MEMORY RANGES HANDLING * > ++\************************/ > ++ > ++static int dtb_add_memory_range(struct memory_ranges *mem_ranges, uint64_t > start, > ++ uint64_t end, unsigned type) > ++{ > ++ struct memory_range this_region = {0}; > ++ struct memory_range *ranges = mem_ranges->ranges; > ++ int i = 0; > ++ int ret = 0; > ++ > ++ if (start == end) { > ++ dbgprintf("Ignoring empty region\n"); > ++ return -EINVAL; > ++ } > ++ > ++ /* Check if we are adding an existing region */ > ++ for (i = 0; i < mem_ranges->size; i++) { > ++ if (start == ranges[i].start && end == ranges[i].end) { > ++ dbgprintf("Duplicate: 0x%lx - 0x%lx\n", start, end); > ++ > ++ if (type == ranges[i].type) > ++ return 0; > ++ else if (type == RANGE_RESERVED) { > ++ ranges[i].type = RANGE_RESERVED; > ++ return 0; > ++ } > ++ > ++ dbgprintf("Conflicting types for region: 0x%lx - > 0x%lx\n", > ++ start, end); > ++ return -EINVAL; > ++ } > ++ } > ++ > ++ /* > ++ * Reserved regions may be part of an existing /memory > ++ * region and shouldn't overlap according to spec, so > ++ * since we add /memory regions first, we can exclude > ++ * reserved regions here from the existing /memory regions > ++ * included in ranges[], so that we don't have the same > ++ * region twice. > ++ */ > ++ if (type == RANGE_RESERVED) { > ++ this_region.start = start; > ++ this_region.end = end - 1; > ++ this_region.type = type; > ++ ret = mem_regions_exclude(mem_ranges, &this_region); > ++ if (ret) > ++ return ret; > ++ } > ++ > ++ ret = mem_regions_alloc_and_add(mem_ranges, start, > ++ end - start, type); > ++ > ++ return ret; > ++} > ++ > ++static int dtb_add_memory_region(char *dtb, int nodeoffset, > ++ struct memory_ranges *mem_ranges, int type) > ++{ > ++ uint32_t root_addr_cells = 0; > ++ uint32_t root_size_cells = 0; > ++ uint64_t addr = 0; > ++ uint64_t size = 0; > ++ const char *reg = NULL; > ++ int prop_size = 0; > ++ int offset = 0; > ++ int entry_size = 0; > ++ int num_entries = 0; > ++ int ret = 0; > ++ > ++ /* > ++ * Get address-cells and size-cells properties (according to > ++ * binding spec these are the same as in the root node) > ++ */ > ++ ret = dtb_get_num_cells(dtb, 0, &root_addr_cells, &root_size_cells, > false); > ++ if (ret < 0) { > ++ dbgprintf("No address/size cells on root node !\n"); > ++ return ret; > ++ } > ++ > ++ /* > ++ * Parse the reg array, acording to device tree spec it includes > ++ * an arbitary number of <address><size> pairs > ++ */ > ++ entry_size = (root_addr_cells + root_size_cells) * sizeof(uint32_t); > ++ reg = fdt_getprop(dtb, nodeoffset, "reg", &prop_size); > ++ if (!reg) { > ++ dbgprintf("Warning: Malformed memory region with no reg > property (%s) !\n", > ++ fdt_get_name(dtb, nodeoffset, NULL)); > ++ return -EINVAL; > ++ } > ++ > ++ num_entries = prop_size / entry_size; > ++ dbgprintf("Got region with %i entries: %s\n", num_entries, > ++ fdt_get_name(dtb, nodeoffset, NULL)); > ++ > ++ for (num_entries--; num_entries >= 0; num_entries--) { > ++ offset = num_entries * entry_size; > ++ > ++ dtb_extract_int_property(&addr, reg + offset, > ++ root_addr_cells); > ++ offset += root_addr_cells * sizeof(uint32_t); > ++ > ++ dtb_extract_int_property(&size, reg + offset, > ++ root_size_cells); > ++ > ++ ret = dtb_add_memory_range(mem_ranges, addr, > ++ addr + size, type); > ++ if (ret) > ++ return ret; > ++ } > ++ > ++ return 0; > ++} > ++ > ++static int dtb_parse_memory_reservations_table(char *dtb, struct > memory_ranges *mem_ranges) > ++{ > ++ int total_memrsrv = 0; > ++ uint64_t addr = 0; > ++ uint64_t size = 0; > ++ int ret = 0; > ++ int i = 0; > ++ > ++ total_memrsrv = fdt_num_mem_rsv(dtb); > ++ for (i = 0; i < total_memrsrv; i++) { > ++ ret = fdt_get_mem_rsv(dtb, i, &addr, &size); > ++ if (ret) > ++ continue; > ++ ret = dtb_add_memory_range(mem_ranges, addr, addr + size - 1, > ++ RANGE_RESERVED); > ++ if (ret) > ++ return ret; > ++ } > ++ > ++ return 0; > ++} > ++ > ++static int dtb_get_reserved_memory_node(char *dtb) > ++{ > ++ uint32_t root_addr_cells = 0; > ++ uint32_t root_size_cells = 0; > ++ uint32_t addr_cells = 0; > ++ uint32_t size_cells = 0; > ++ int prop_size = 0; > ++ int nodeoffset = 0; > ++ int ret = 0; > ++ > ++ /* Get address / size cells from root node */ > ++ ret = dtb_get_num_cells(dtb, 0, &root_addr_cells, &root_size_cells, > false); > ++ if (ret < 0) { > ++ dbgprintf("No address/size cells on root node !\n"); > ++ return ret; > ++ } > ++ > ++ /* This calls fdt_next_node internaly */ > ++ nodeoffset = fdt_subnode_offset(dtb, 0, "reserved-memory"); > ++ if (nodeoffset == -FDT_ERR_NOTFOUND) { > ++ return nodeoffset; > ++ } else if (nodeoffset < 0) { > ++ dbgprintf("Error while looking for reserved-memory: %s\n", > ++ fdt_strerror(nodeoffset)); > ++ return nodeoffset; > ++ } > ++ > ++ /* Look for the ranges property */ > ++ fdt_getprop(dtb, nodeoffset, "ranges", &prop_size); > ++ if (prop_size < 0) { > ++ fprintf(stderr, "Malformed reserved-memory node (no ranges > property) !\n"); > ++ return -EINVAL; > ++ } > ++ > ++ /* Verify address-cells / size-cells */ > ++ ret = dtb_get_num_cells(dtb, nodeoffset, &addr_cells, &size_cells, > false); > ++ if (ret < 0) { > ++ dbgprintf("No address/size cells property on reserved-memory > node\n"); > ++ return ret; > ++ } > ++ > ++ if (addr_cells != root_addr_cells) { > ++ fprintf(stderr, "Invalid #address-cells property on > reserved-memory node\n"); > ++ return -EINVAL; > ++ } > ++ > ++ if (size_cells != root_size_cells) { > ++ fprintf(stderr, "Invalid #size-cells property on > reserved-memory node\n"); > ++ return -EINVAL; > ++ > ++ } > ++ > ++ return nodeoffset; > ++} > ++ > ++static int dtb_parse_reserved_memory_node(char *dtb, struct memory_ranges > *mem_ranges) > ++{ > ++ int nodeoffset = 0; > ++ int node_depth = 0; > ++ int parent_depth = 0; > ++ int ret = 0; > ++ > ++ nodeoffset = dtb_get_reserved_memory_node(dtb); > ++ if (nodeoffset == -FDT_ERR_NOTFOUND) > ++ return 0; > ++ else if (nodeoffset < 0) > ++ return nodeoffset; > ++ > ++ /* Got the parent node, check for sub-nodes */ > ++ > ++ /* fdt_next_node() increases or decreases depth */ > ++ node_depth = parent_depth; > ++ nodeoffset = fdt_next_node(dtb, nodeoffset, &node_depth); > ++ if (ret < 0) { > ++ dbgprintf("Unable to get next node: %s\n", > ++ fdt_strerror(ret)); > ++ return -EINVAL; > ++ } > ++ > ++ while (node_depth != parent_depth) { > ++ > ++ ret = dtb_add_memory_region(dtb, nodeoffset, > ++ mem_ranges, RANGE_RESERVED); > ++ if (ret) > ++ return ret; > ++ > ++ nodeoffset = fdt_next_node(dtb, nodeoffset, &node_depth); > ++ if (ret < 0) { > ++ dbgprintf("Unable to get next node: %s\n", > ++ fdt_strerror(ret)); > ++ return -EINVAL; > ++ } > ++ } > ++ > ++ return 0; > ++} > ++ > ++static int dtb_parse_memory_nodes(char *dtb, struct memory_ranges > *mem_ranges) > ++{ > ++ int nodeoffset = 0; > ++ int num_regions = 0; > ++ const char* dev_type = 0; > ++ int prop_size = 0; > ++ int ret = 0; > ++ > ++ for (; ; num_regions++) { > ++ nodeoffset = fdt_subnode_offset(dtb, nodeoffset, > ++ "memory"); > ++ if (nodeoffset < 0) > ++ break; > ++ > ++ dbgprintf("Got memory node at depth: %i\n", > fdt_node_depth(dtb, nodeoffset)); > ++ > ++ /* Look for the device_type property */ > ++ dev_type = fdt_getprop(dtb, nodeoffset, "device_type", > &prop_size); > ++ if (prop_size < 0) { > ++ fprintf(stderr, "Malformed /memory node (no > device-type property) !\n"); > ++ return -EINVAL; > ++ } > ++ > ++ if (strncmp(dev_type, "memory", prop_size)) { > ++ dbgprintf("Got unknown dev_type property: %s\n", > dev_type); > ++ continue; > ++ } > ++ > ++ ret = dtb_add_memory_region(dtb, nodeoffset, mem_ranges, > RANGE_RAM); > ++ if (ret) > ++ return ret; > ++ } > ++ > ++ if (!num_regions) { > ++ dbgprintf("Malformed dtb, no /memory nodes present !\n"); > ++ return -EINVAL; > ++ } > ++ > ++ dbgprintf("Got %i /memory nodes\n", num_regions); > ++ > ++ return 0; > ++} > ++ > ++int dtb_get_memory_ranges(char *dtb, struct memory_ranges *mem_ranges, > struct memory_ranges *extra_ranges) > ++{ > ++ int i = 0; > ++ int ret = 0; > ++ > ++ /* Fill mem_ranges[] by parsing the device tree */ > ++ ret = dtb_parse_memory_nodes(dtb, mem_ranges); > ++ if (ret) > ++ return ret; > ++ > ++ ret = dtb_parse_memory_reservations_table(dtb, mem_ranges); > ++ if (ret) > ++ return ret; > ++ > ++ ret = dtb_parse_reserved_memory_node(dtb, mem_ranges); > ++ if (ret) > ++ return ret; > ++ > ++ /* Append any extra ranges provided by the caller (e.g. initrd) */ > ++ for (i = 0; extra_ranges != NULL && i < extra_ranges->size; i++) { > ++ dbgprintf("Adding extra range: 0x%llx - 0x%llx (%s)\n", > ++ extra_ranges->ranges[i].start, > ++ extra_ranges->ranges[i].end, > ++ extra_ranges->ranges[i].type == RANGE_RESERVED ? > ++ "RANGE_RESERVED" : "RANGE_RAM"); > ++ > ++ ret = dtb_add_memory_range(mem_ranges, > extra_ranges->ranges[i].start, > ++ extra_ranges->ranges[i].end, > extra_ranges->ranges[i].type); > ++ if (ret) > ++ return ret; > ++ } > ++ > ++ mem_regions_sort(mem_ranges); > ++ > ++ return 0; > ++} > +--- a/kexec/dt-ops.h > ++++ b/kexec/dt-ops.h > +@@ -11,4 +11,11 @@ int dtb_set_property(char **dtb, off_t * > + > + int dtb_delete_property(char *dtb, const char *node, const char *prop); > + > ++void dtb_extract_int_property(uint64_t *val, const void *buf, uint32_t > cells); > ++void dtb_fill_int_property(void *buf, uint64_t val, uint32_t cells); > ++int dtb_add_range_property(char **dtb, off_t *dtb_size, uint64_t start, > uint64_t end, > ++ const char *node, const char* parent); > ++int dtb_get_memory_ranges(char *dtb, struct memory_ranges *mem_ranges, > ++ struct memory_ranges *extra_ranges); > ++ > + #endif > +--- a/kexec/kexec-syscall.h > ++++ b/kexec/kexec-syscall.h > +@@ -140,6 +140,7 @@ static inline long kexec_file_load(int k > + #define KEXEC_ARCH_MIPS_LE (10 << 16) > + #define KEXEC_ARCH_MIPS ( 8 << 16) > + #define KEXEC_ARCH_CRIS (76 << 16) > ++#define KEXEC_ARCH_RISCV (243 << 16) > + #define KEXEC_ARCH_LOONGARCH (258 << 16) > + > + #define KEXEC_MAX_SEGMENTS 16 > +@@ -184,6 +185,9 @@ static inline long kexec_file_load(int k > + #if defined(__arm64__) > + #define KEXEC_ARCH_NATIVE KEXEC_ARCH_ARM64 > + #endif > ++#if defined(__riscv__) || defined(__riscv) > ++#define KEXEC_ARCH_NATIVE KEXEC_ARCH_RISCV > ++#endif > + #if defined(__loongarch__) > + #define KEXEC_ARCH_NATIVE KEXEC_ARCH_LOONGARCH > + #endif > +--- a/purgatory/Makefile > ++++ b/purgatory/Makefile > +@@ -25,6 +25,7 @@ include $(srcdir)/purgatory/arch/ia64/Ma > + include $(srcdir)/purgatory/arch/mips/Makefile > + include $(srcdir)/purgatory/arch/ppc/Makefile > + include $(srcdir)/purgatory/arch/ppc64/Makefile > ++include $(srcdir)/purgatory/arch/riscv/Makefile > + include $(srcdir)/purgatory/arch/s390/Makefile > + include $(srcdir)/purgatory/arch/sh/Makefile > + include $(srcdir)/purgatory/arch/x86_64/Makefile > +--- /dev/null > ++++ b/purgatory/arch/riscv/Makefile > +@@ -0,0 +1,7 @@ > ++# > ++# Purgatory riscv > ++# > ++ > ++riscv_PURGATORY_SRCS = > ++ > ++dist += purgatory/arch/sh/Makefile $(riscv_PURGATORY_SRCS) > diff --git a/meta/recipes-kernel/kexec/kexec-tools_2.0.31.bb > b/meta/recipes-kernel/kexec/kexec-tools_2.0.31.bb > index b12f76a0bf..f61c8a6c49 100644 > --- a/meta/recipes-kernel/kexec/kexec-tools_2.0.31.bb > +++ b/meta/recipes-kernel/kexec/kexec-tools_2.0.31.bb > @@ -20,6 +20,8 @@ SRC_URI = > "${KERNELORG_MIRROR}/linux/utils/kernel/kexec/kexec-tools-${PV}.tar.gz > file://0001-kexec.c-add-MFD_NOEXEC_SEAL-flag-explicitly.patch \ > file://0001-ppc-fs2dt-Match-function-signatures.patch \ > > file://0001-Make-the-segment-base-match-pinned-section-address.patch \ > + file://riscv64-support.patch \ > + file://riscv64-hotplug-support.patch \ > " > > SRC_URI[sha256sum] = > "ddaaa65b02b4f8aa9222586b1f26565b93a4baeffd35bcbd523f15fae7aa4897" > @@ -86,7 +88,7 @@ SYSTEMD_SERVICE:kdump = "kdump.service" > > SECURITY_PIE_CFLAGS:remove = "-fPIE -pie" > > -COMPATIBLE_HOST = > '(x86_64.*|i.86.*|arm.*|aarch64.*|powerpc.*|mips.*)-(linux|freebsd.*)' > +COMPATIBLE_HOST = > '(x86_64.*|i.86.*|arm.*|aarch64.*|powerpc.*|mips.*|riscv64.*)-(linux|freebsd.*)' > # makedumpfile would not compile on mips/rv32 > COMPATIBLE_HOST:mipsarcho32 = "null" > COMPATIBLE_HOST:riscv32 = "null" > > >
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