mirror of
https://github.com/AuxXxilium/linux_dsm_epyc7002.git
synced 2024-12-28 11:18:45 +07:00
98587c2d89
The disabled_wait() function uses its argument as the PSW address when it stops the CPU with a wait PSW that is disabled for interrupts. The different callers sometimes use a specific number like 0xdeadbeef to indicate a specific failure, the early boot code uses 0 and some other calls sites use __builtin_return_address(0). At the time a dump is created the current PSW and the registers of a CPU are written to lowcore to make them avaiable to the dump analysis tool. For a CPU stopped with disabled_wait the PSW and the registers do not really make sense together, the PSW address does not point to the function the registers belong to. Simplify disabled_wait() by using _THIS_IP_ for the PSW address and drop the argument to the function. Signed-off-by: Martin Schwidefsky <schwidefsky@de.ibm.com>
165 lines
5.1 KiB
C
165 lines
5.1 KiB
C
// SPDX-License-Identifier: GPL-2.0
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#include <linux/string.h>
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#include <linux/elf.h>
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#include <asm/sections.h>
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#include <asm/setup.h>
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#include <asm/kexec.h>
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#include <asm/sclp.h>
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#include <asm/diag.h>
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#include <asm/uv.h>
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#include "compressed/decompressor.h"
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#include "boot.h"
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extern char __boot_data_start[], __boot_data_end[];
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extern char __boot_data_preserved_start[], __boot_data_preserved_end[];
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unsigned long __bootdata_preserved(__kaslr_offset);
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/*
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* Some code and data needs to stay below 2 GB, even when the kernel would be
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* relocated above 2 GB, because it has to use 31 bit addresses.
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* Such code and data is part of the .dma section, and its location is passed
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* over to the decompressed / relocated kernel via the .boot.preserved.data
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* section.
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*/
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extern char _sdma[], _edma[];
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extern char _stext_dma[], _etext_dma[];
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extern struct exception_table_entry _start_dma_ex_table[];
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extern struct exception_table_entry _stop_dma_ex_table[];
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unsigned long __bootdata_preserved(__sdma) = __pa(&_sdma);
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unsigned long __bootdata_preserved(__edma) = __pa(&_edma);
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unsigned long __bootdata_preserved(__stext_dma) = __pa(&_stext_dma);
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unsigned long __bootdata_preserved(__etext_dma) = __pa(&_etext_dma);
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struct exception_table_entry *
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__bootdata_preserved(__start_dma_ex_table) = _start_dma_ex_table;
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struct exception_table_entry *
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__bootdata_preserved(__stop_dma_ex_table) = _stop_dma_ex_table;
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int _diag210_dma(struct diag210 *addr);
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int _diag26c_dma(void *req, void *resp, enum diag26c_sc subcode);
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int _diag14_dma(unsigned long rx, unsigned long ry1, unsigned long subcode);
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void _diag0c_dma(struct hypfs_diag0c_entry *entry);
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void _diag308_reset_dma(void);
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struct diag_ops __bootdata_preserved(diag_dma_ops) = {
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.diag210 = _diag210_dma,
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.diag26c = _diag26c_dma,
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.diag14 = _diag14_dma,
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.diag0c = _diag0c_dma,
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.diag308_reset = _diag308_reset_dma
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};
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static struct diag210 _diag210_tmp_dma __section(".dma.data");
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struct diag210 *__bootdata_preserved(__diag210_tmp_dma) = &_diag210_tmp_dma;
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void _swsusp_reset_dma(void);
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unsigned long __bootdata_preserved(__swsusp_reset_dma) = __pa(_swsusp_reset_dma);
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void error(char *x)
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{
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sclp_early_printk("\n\n");
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sclp_early_printk(x);
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sclp_early_printk("\n\n -- System halted");
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disabled_wait();
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}
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#ifdef CONFIG_KERNEL_UNCOMPRESSED
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unsigned long mem_safe_offset(void)
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{
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return vmlinux.default_lma + vmlinux.image_size + vmlinux.bss_size;
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}
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#endif
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static void rescue_initrd(unsigned long addr)
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{
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if (!IS_ENABLED(CONFIG_BLK_DEV_INITRD))
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return;
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if (!INITRD_START || !INITRD_SIZE)
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return;
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if (addr <= INITRD_START)
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return;
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memmove((void *)addr, (void *)INITRD_START, INITRD_SIZE);
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INITRD_START = addr;
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}
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static void copy_bootdata(void)
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{
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if (__boot_data_end - __boot_data_start != vmlinux.bootdata_size)
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error(".boot.data section size mismatch");
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memcpy((void *)vmlinux.bootdata_off, __boot_data_start, vmlinux.bootdata_size);
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if (__boot_data_preserved_end - __boot_data_preserved_start != vmlinux.bootdata_preserved_size)
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error(".boot.preserved.data section size mismatch");
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memcpy((void *)vmlinux.bootdata_preserved_off, __boot_data_preserved_start, vmlinux.bootdata_preserved_size);
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}
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static void handle_relocs(unsigned long offset)
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{
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Elf64_Rela *rela_start, *rela_end, *rela;
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int r_type, r_sym, rc;
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Elf64_Addr loc, val;
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Elf64_Sym *dynsym;
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rela_start = (Elf64_Rela *) vmlinux.rela_dyn_start;
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rela_end = (Elf64_Rela *) vmlinux.rela_dyn_end;
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dynsym = (Elf64_Sym *) vmlinux.dynsym_start;
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for (rela = rela_start; rela < rela_end; rela++) {
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loc = rela->r_offset + offset;
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val = rela->r_addend + offset;
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r_sym = ELF64_R_SYM(rela->r_info);
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if (r_sym)
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val += dynsym[r_sym].st_value;
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r_type = ELF64_R_TYPE(rela->r_info);
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rc = arch_kexec_do_relocs(r_type, (void *) loc, val, 0);
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if (rc)
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error("Unknown relocation type");
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}
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}
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void startup_kernel(void)
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{
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unsigned long random_lma;
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unsigned long safe_addr;
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void *img;
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store_ipl_parmblock();
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safe_addr = mem_safe_offset();
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safe_addr = read_ipl_report(safe_addr);
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uv_query_info();
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rescue_initrd(safe_addr);
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sclp_early_read_info();
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setup_boot_command_line();
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parse_boot_command_line();
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setup_memory_end();
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detect_memory();
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random_lma = __kaslr_offset = 0;
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if (IS_ENABLED(CONFIG_RANDOMIZE_BASE) && kaslr_enabled) {
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random_lma = get_random_base(safe_addr);
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if (random_lma) {
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__kaslr_offset = random_lma - vmlinux.default_lma;
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img = (void *)vmlinux.default_lma;
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vmlinux.default_lma += __kaslr_offset;
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vmlinux.entry += __kaslr_offset;
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vmlinux.bootdata_off += __kaslr_offset;
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vmlinux.bootdata_preserved_off += __kaslr_offset;
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vmlinux.rela_dyn_start += __kaslr_offset;
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vmlinux.rela_dyn_end += __kaslr_offset;
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vmlinux.dynsym_start += __kaslr_offset;
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}
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}
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if (!IS_ENABLED(CONFIG_KERNEL_UNCOMPRESSED)) {
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img = decompress_kernel();
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memmove((void *)vmlinux.default_lma, img, vmlinux.image_size);
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} else if (__kaslr_offset)
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memcpy((void *)vmlinux.default_lma, img, vmlinux.image_size);
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copy_bootdata();
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if (IS_ENABLED(CONFIG_RELOCATABLE))
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handle_relocs(__kaslr_offset);
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if (__kaslr_offset) {
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/* Clear non-relocated kernel */
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if (IS_ENABLED(CONFIG_KERNEL_UNCOMPRESSED))
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memset(img, 0, vmlinux.image_size);
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}
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vmlinux.entry();
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}
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