Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Michael Holzheu | 2688 | 94.98% | 9 | 39.13% |
Janosch Frank | 106 | 3.75% | 1 | 4.35% |
Al Viro | 13 | 0.46% | 1 | 4.35% |
Heiko Carstens | 8 | 0.28% | 5 | 21.74% |
Kees Cook | 4 | 0.14% | 1 | 4.35% |
Martin Schwidefsky | 3 | 0.11% | 1 | 4.35% |
Arnd Bergmann | 3 | 0.11% | 1 | 4.35% |
Gustavo A. R. Silva | 2 | 0.07% | 1 | 4.35% |
Joe Perches | 1 | 0.04% | 1 | 4.35% |
Greg Kroah-Hartman | 1 | 0.04% | 1 | 4.35% |
Christian Bornträger | 1 | 0.04% | 1 | 4.35% |
Total | 2830 | 23 |
// SPDX-License-Identifier: GPL-2.0 /* * Hypervisor filesystem for Linux on s390. Diag 204 and 224 * implementation. * * Copyright IBM Corp. 2006, 2008 * Author(s): Michael Holzheu <holzheu@de.ibm.com> */ #define KMSG_COMPONENT "hypfs" #define pr_fmt(fmt) KMSG_COMPONENT ": " fmt #include <linux/types.h> #include <linux/errno.h> #include <linux/slab.h> #include <linux/string.h> #include <linux/vmalloc.h> #include <linux/mm.h> #include <asm/diag.h> #include <asm/ebcdic.h> #include "hypfs.h" #define TMP_SIZE 64 /* size of temporary buffers */ #define DBFS_D204_HDR_VERSION 0 static char *diag224_cpu_names; /* diag 224 name table */ static enum diag204_sc diag204_store_sc; /* used subcode for store */ static enum diag204_format diag204_info_type; /* used diag 204 data format */ static void *diag204_buf; /* 4K aligned buffer for diag204 data */ static void *diag204_buf_vmalloc; /* vmalloc pointer for diag204 data */ static int diag204_buf_pages; /* number of pages for diag204 data */ static struct dentry *dbfs_d204_file; /* * DIAG 204 member access functions. * * Since we have two different diag 204 data formats for old and new s390 * machines, we do not access the structs directly, but use getter functions for * each struct member instead. This should make the code more readable. */ /* Time information block */ static inline int info_blk_hdr__size(enum diag204_format type) { if (type == DIAG204_INFO_SIMPLE) return sizeof(struct diag204_info_blk_hdr); else /* DIAG204_INFO_EXT */ return sizeof(struct diag204_x_info_blk_hdr); } static inline __u8 info_blk_hdr__npar(enum diag204_format type, void *hdr) { if (type == DIAG204_INFO_SIMPLE) return ((struct diag204_info_blk_hdr *)hdr)->npar; else /* DIAG204_INFO_EXT */ return ((struct diag204_x_info_blk_hdr *)hdr)->npar; } static inline __u8 info_blk_hdr__flags(enum diag204_format type, void *hdr) { if (type == DIAG204_INFO_SIMPLE) return ((struct diag204_info_blk_hdr *)hdr)->flags; else /* DIAG204_INFO_EXT */ return ((struct diag204_x_info_blk_hdr *)hdr)->flags; } static inline __u16 info_blk_hdr__pcpus(enum diag204_format type, void *hdr) { if (type == DIAG204_INFO_SIMPLE) return ((struct diag204_info_blk_hdr *)hdr)->phys_cpus; else /* DIAG204_INFO_EXT */ return ((struct diag204_x_info_blk_hdr *)hdr)->phys_cpus; } /* Partition header */ static inline int part_hdr__size(enum diag204_format type) { if (type == DIAG204_INFO_SIMPLE) return sizeof(struct diag204_part_hdr); else /* DIAG204_INFO_EXT */ return sizeof(struct diag204_x_part_hdr); } static inline __u8 part_hdr__rcpus(enum diag204_format type, void *hdr) { if (type == DIAG204_INFO_SIMPLE) return ((struct diag204_part_hdr *)hdr)->cpus; else /* DIAG204_INFO_EXT */ return ((struct diag204_x_part_hdr *)hdr)->rcpus; } static inline void part_hdr__part_name(enum diag204_format type, void *hdr, char *name) { if (type == DIAG204_INFO_SIMPLE) memcpy(name, ((struct diag204_part_hdr *)hdr)->part_name, DIAG204_LPAR_NAME_LEN); else /* DIAG204_INFO_EXT */ memcpy(name, ((struct diag204_x_part_hdr *)hdr)->part_name, DIAG204_LPAR_NAME_LEN); EBCASC(name, DIAG204_LPAR_NAME_LEN); name[DIAG204_LPAR_NAME_LEN] = 0; strim(name); } /* CPU info block */ static inline int cpu_info__size(enum diag204_format type) { if (type == DIAG204_INFO_SIMPLE) return sizeof(struct diag204_cpu_info); else /* DIAG204_INFO_EXT */ return sizeof(struct diag204_x_cpu_info); } static inline __u8 cpu_info__ctidx(enum diag204_format type, void *hdr) { if (type == DIAG204_INFO_SIMPLE) return ((struct diag204_cpu_info *)hdr)->ctidx; else /* DIAG204_INFO_EXT */ return ((struct diag204_x_cpu_info *)hdr)->ctidx; } static inline __u16 cpu_info__cpu_addr(enum diag204_format type, void *hdr) { if (type == DIAG204_INFO_SIMPLE) return ((struct diag204_cpu_info *)hdr)->cpu_addr; else /* DIAG204_INFO_EXT */ return ((struct diag204_x_cpu_info *)hdr)->cpu_addr; } static inline __u64 cpu_info__acc_time(enum diag204_format type, void *hdr) { if (type == DIAG204_INFO_SIMPLE) return ((struct diag204_cpu_info *)hdr)->acc_time; else /* DIAG204_INFO_EXT */ return ((struct diag204_x_cpu_info *)hdr)->acc_time; } static inline __u64 cpu_info__lp_time(enum diag204_format type, void *hdr) { if (type == DIAG204_INFO_SIMPLE) return ((struct diag204_cpu_info *)hdr)->lp_time; else /* DIAG204_INFO_EXT */ return ((struct diag204_x_cpu_info *)hdr)->lp_time; } static inline __u64 cpu_info__online_time(enum diag204_format type, void *hdr) { if (type == DIAG204_INFO_SIMPLE) return 0; /* online_time not available in simple info */ else /* DIAG204_INFO_EXT */ return ((struct diag204_x_cpu_info *)hdr)->online_time; } /* Physical header */ static inline int phys_hdr__size(enum diag204_format type) { if (type == DIAG204_INFO_SIMPLE) return sizeof(struct diag204_phys_hdr); else /* DIAG204_INFO_EXT */ return sizeof(struct diag204_x_phys_hdr); } static inline __u8 phys_hdr__cpus(enum diag204_format type, void *hdr) { if (type == DIAG204_INFO_SIMPLE) return ((struct diag204_phys_hdr *)hdr)->cpus; else /* DIAG204_INFO_EXT */ return ((struct diag204_x_phys_hdr *)hdr)->cpus; } /* Physical CPU info block */ static inline int phys_cpu__size(enum diag204_format type) { if (type == DIAG204_INFO_SIMPLE) return sizeof(struct diag204_phys_cpu); else /* DIAG204_INFO_EXT */ return sizeof(struct diag204_x_phys_cpu); } static inline __u16 phys_cpu__cpu_addr(enum diag204_format type, void *hdr) { if (type == DIAG204_INFO_SIMPLE) return ((struct diag204_phys_cpu *)hdr)->cpu_addr; else /* DIAG204_INFO_EXT */ return ((struct diag204_x_phys_cpu *)hdr)->cpu_addr; } static inline __u64 phys_cpu__mgm_time(enum diag204_format type, void *hdr) { if (type == DIAG204_INFO_SIMPLE) return ((struct diag204_phys_cpu *)hdr)->mgm_time; else /* DIAG204_INFO_EXT */ return ((struct diag204_x_phys_cpu *)hdr)->mgm_time; } static inline __u64 phys_cpu__ctidx(enum diag204_format type, void *hdr) { if (type == DIAG204_INFO_SIMPLE) return ((struct diag204_phys_cpu *)hdr)->ctidx; else /* DIAG204_INFO_EXT */ return ((struct diag204_x_phys_cpu *)hdr)->ctidx; } /* Diagnose 204 functions */ /* * For the old diag subcode 4 with simple data format we have to use real * memory. If we use subcode 6 or 7 with extended data format, we can (and * should) use vmalloc, since we need a lot of memory in that case. Currently * up to 93 pages! */ static void diag204_free_buffer(void) { if (!diag204_buf) return; if (diag204_buf_vmalloc) { vfree(diag204_buf_vmalloc); diag204_buf_vmalloc = NULL; } else { free_pages((unsigned long) diag204_buf, 0); } diag204_buf = NULL; } static void *page_align_ptr(void *ptr) { return (void *) PAGE_ALIGN((unsigned long) ptr); } static void *diag204_alloc_vbuf(int pages) { /* The buffer has to be page aligned! */ diag204_buf_vmalloc = vmalloc(array_size(PAGE_SIZE, (pages + 1))); if (!diag204_buf_vmalloc) return ERR_PTR(-ENOMEM); diag204_buf = page_align_ptr(diag204_buf_vmalloc); diag204_buf_pages = pages; return diag204_buf; } static void *diag204_alloc_rbuf(void) { diag204_buf = (void*)__get_free_pages(GFP_KERNEL,0); if (!diag204_buf) return ERR_PTR(-ENOMEM); diag204_buf_pages = 1; return diag204_buf; } static void *diag204_get_buffer(enum diag204_format fmt, int *pages) { if (diag204_buf) { *pages = diag204_buf_pages; return diag204_buf; } if (fmt == DIAG204_INFO_SIMPLE) { *pages = 1; return diag204_alloc_rbuf(); } else {/* DIAG204_INFO_EXT */ *pages = diag204((unsigned long)DIAG204_SUBC_RSI | (unsigned long)DIAG204_INFO_EXT, 0, NULL); if (*pages <= 0) return ERR_PTR(-ENOSYS); else return diag204_alloc_vbuf(*pages); } } /* * diag204_probe() has to find out, which type of diagnose 204 implementation * we have on our machine. Currently there are three possible scanarios: * - subcode 4 + simple data format (only one page) * - subcode 4-6 + extended data format * - subcode 4-7 + extended data format * * Subcode 5 is used to retrieve the size of the data, provided by subcodes * 6 and 7. Subcode 7 basically has the same function as subcode 6. In addition * to subcode 6 it provides also information about secondary cpus. * In order to get as much information as possible, we first try * subcode 7, then 6 and if both fail, we use subcode 4. */ static int diag204_probe(void) { void *buf; int pages, rc; buf = diag204_get_buffer(DIAG204_INFO_EXT, &pages); if (!IS_ERR(buf)) { if (diag204((unsigned long)DIAG204_SUBC_STIB7 | (unsigned long)DIAG204_INFO_EXT, pages, buf) >= 0) { diag204_store_sc = DIAG204_SUBC_STIB7; diag204_info_type = DIAG204_INFO_EXT; goto out; } if (diag204((unsigned long)DIAG204_SUBC_STIB6 | (unsigned long)DIAG204_INFO_EXT, pages, buf) >= 0) { diag204_store_sc = DIAG204_SUBC_STIB6; diag204_info_type = DIAG204_INFO_EXT; goto out; } diag204_free_buffer(); } /* subcodes 6 and 7 failed, now try subcode 4 */ buf = diag204_get_buffer(DIAG204_INFO_SIMPLE, &pages); if (IS_ERR(buf)) { rc = PTR_ERR(buf); goto fail_alloc; } if (diag204((unsigned long)DIAG204_SUBC_STIB4 | (unsigned long)DIAG204_INFO_SIMPLE, pages, buf) >= 0) { diag204_store_sc = DIAG204_SUBC_STIB4; diag204_info_type = DIAG204_INFO_SIMPLE; goto out; } else { rc = -ENOSYS; goto fail_store; } out: rc = 0; fail_store: diag204_free_buffer(); fail_alloc: return rc; } static int diag204_do_store(void *buf, int pages) { int rc; rc = diag204((unsigned long) diag204_store_sc | (unsigned long) diag204_info_type, pages, buf); return rc < 0 ? -ENOSYS : 0; } static void *diag204_store(void) { void *buf; int pages, rc; buf = diag204_get_buffer(diag204_info_type, &pages); if (IS_ERR(buf)) goto out; rc = diag204_do_store(buf, pages); if (rc) return ERR_PTR(rc); out: return buf; } /* Diagnose 224 functions */ static int diag224_get_name_table(void) { /* memory must be below 2GB */ diag224_cpu_names = (char *) __get_free_page(GFP_KERNEL | GFP_DMA); if (!diag224_cpu_names) return -ENOMEM; if (diag224(diag224_cpu_names)) { free_page((unsigned long) diag224_cpu_names); return -EOPNOTSUPP; } EBCASC(diag224_cpu_names + 16, (*diag224_cpu_names + 1) * 16); return 0; } static void diag224_delete_name_table(void) { free_page((unsigned long) diag224_cpu_names); } static int diag224_idx2name(int index, char *name) { memcpy(name, diag224_cpu_names + ((index + 1) * DIAG204_CPU_NAME_LEN), DIAG204_CPU_NAME_LEN); name[DIAG204_CPU_NAME_LEN] = 0; strim(name); return 0; } struct dbfs_d204_hdr { u64 len; /* Length of d204 buffer without header */ u16 version; /* Version of header */ u8 sc; /* Used subcode */ char reserved[53]; } __attribute__ ((packed)); struct dbfs_d204 { struct dbfs_d204_hdr hdr; /* 64 byte header */ char buf[]; /* d204 buffer */ } __attribute__ ((packed)); static int dbfs_d204_create(void **data, void **data_free_ptr, size_t *size) { struct dbfs_d204 *d204; int rc, buf_size; void *base; buf_size = PAGE_SIZE * (diag204_buf_pages + 1) + sizeof(d204->hdr); base = vzalloc(buf_size); if (!base) return -ENOMEM; d204 = page_align_ptr(base + sizeof(d204->hdr)) - sizeof(d204->hdr); rc = diag204_do_store(d204->buf, diag204_buf_pages); if (rc) { vfree(base); return rc; } d204->hdr.version = DBFS_D204_HDR_VERSION; d204->hdr.len = PAGE_SIZE * diag204_buf_pages; d204->hdr.sc = diag204_store_sc; *data = d204; *data_free_ptr = base; *size = d204->hdr.len + sizeof(struct dbfs_d204_hdr); return 0; } static struct hypfs_dbfs_file dbfs_file_d204 = { .name = "diag_204", .data_create = dbfs_d204_create, .data_free = vfree, }; __init int hypfs_diag_init(void) { int rc; if (diag204_probe()) { pr_err("The hardware system does not support hypfs\n"); return -ENODATA; } if (diag204_info_type == DIAG204_INFO_EXT) hypfs_dbfs_create_file(&dbfs_file_d204); if (MACHINE_IS_LPAR) { rc = diag224_get_name_table(); if (rc) { pr_err("The hardware system does not provide all " "functions required by hypfs\n"); debugfs_remove(dbfs_d204_file); return rc; } } return 0; } void hypfs_diag_exit(void) { debugfs_remove(dbfs_d204_file); diag224_delete_name_table(); diag204_free_buffer(); hypfs_dbfs_remove_file(&dbfs_file_d204); } /* * Functions to create the directory structure * ******************************************* */ static int hypfs_create_cpu_files(struct dentry *cpus_dir, void *cpu_info) { struct dentry *cpu_dir; char buffer[TMP_SIZE]; void *rc; snprintf(buffer, TMP_SIZE, "%d", cpu_info__cpu_addr(diag204_info_type, cpu_info)); cpu_dir = hypfs_mkdir(cpus_dir, buffer); rc = hypfs_create_u64(cpu_dir, "mgmtime", cpu_info__acc_time(diag204_info_type, cpu_info) - cpu_info__lp_time(diag204_info_type, cpu_info)); if (IS_ERR(rc)) return PTR_ERR(rc); rc = hypfs_create_u64(cpu_dir, "cputime", cpu_info__lp_time(diag204_info_type, cpu_info)); if (IS_ERR(rc)) return PTR_ERR(rc); if (diag204_info_type == DIAG204_INFO_EXT) { rc = hypfs_create_u64(cpu_dir, "onlinetime", cpu_info__online_time(diag204_info_type, cpu_info)); if (IS_ERR(rc)) return PTR_ERR(rc); } diag224_idx2name(cpu_info__ctidx(diag204_info_type, cpu_info), buffer); rc = hypfs_create_str(cpu_dir, "type", buffer); return PTR_ERR_OR_ZERO(rc); } static void *hypfs_create_lpar_files(struct dentry *systems_dir, void *part_hdr) { struct dentry *cpus_dir; struct dentry *lpar_dir; char lpar_name[DIAG204_LPAR_NAME_LEN + 1]; void *cpu_info; int i; part_hdr__part_name(diag204_info_type, part_hdr, lpar_name); lpar_name[DIAG204_LPAR_NAME_LEN] = 0; lpar_dir = hypfs_mkdir(systems_dir, lpar_name); if (IS_ERR(lpar_dir)) return lpar_dir; cpus_dir = hypfs_mkdir(lpar_dir, "cpus"); if (IS_ERR(cpus_dir)) return cpus_dir; cpu_info = part_hdr + part_hdr__size(diag204_info_type); for (i = 0; i < part_hdr__rcpus(diag204_info_type, part_hdr); i++) { int rc; rc = hypfs_create_cpu_files(cpus_dir, cpu_info); if (rc) return ERR_PTR(rc); cpu_info += cpu_info__size(diag204_info_type); } return cpu_info; } static int hypfs_create_phys_cpu_files(struct dentry *cpus_dir, void *cpu_info) { struct dentry *cpu_dir; char buffer[TMP_SIZE]; void *rc; snprintf(buffer, TMP_SIZE, "%i", phys_cpu__cpu_addr(diag204_info_type, cpu_info)); cpu_dir = hypfs_mkdir(cpus_dir, buffer); if (IS_ERR(cpu_dir)) return PTR_ERR(cpu_dir); rc = hypfs_create_u64(cpu_dir, "mgmtime", phys_cpu__mgm_time(diag204_info_type, cpu_info)); if (IS_ERR(rc)) return PTR_ERR(rc); diag224_idx2name(phys_cpu__ctidx(diag204_info_type, cpu_info), buffer); rc = hypfs_create_str(cpu_dir, "type", buffer); return PTR_ERR_OR_ZERO(rc); } static void *hypfs_create_phys_files(struct dentry *parent_dir, void *phys_hdr) { int i; void *cpu_info; struct dentry *cpus_dir; cpus_dir = hypfs_mkdir(parent_dir, "cpus"); if (IS_ERR(cpus_dir)) return cpus_dir; cpu_info = phys_hdr + phys_hdr__size(diag204_info_type); for (i = 0; i < phys_hdr__cpus(diag204_info_type, phys_hdr); i++) { int rc; rc = hypfs_create_phys_cpu_files(cpus_dir, cpu_info); if (rc) return ERR_PTR(rc); cpu_info += phys_cpu__size(diag204_info_type); } return cpu_info; } int hypfs_diag_create_files(struct dentry *root) { struct dentry *systems_dir, *hyp_dir; void *time_hdr, *part_hdr; int i, rc; void *buffer, *ptr; buffer = diag204_store(); if (IS_ERR(buffer)) return PTR_ERR(buffer); systems_dir = hypfs_mkdir(root, "systems"); if (IS_ERR(systems_dir)) { rc = PTR_ERR(systems_dir); goto err_out; } time_hdr = (struct x_info_blk_hdr *)buffer; part_hdr = time_hdr + info_blk_hdr__size(diag204_info_type); for (i = 0; i < info_blk_hdr__npar(diag204_info_type, time_hdr); i++) { part_hdr = hypfs_create_lpar_files(systems_dir, part_hdr); if (IS_ERR(part_hdr)) { rc = PTR_ERR(part_hdr); goto err_out; } } if (info_blk_hdr__flags(diag204_info_type, time_hdr) & DIAG204_LPAR_PHYS_FLG) { ptr = hypfs_create_phys_files(root, part_hdr); if (IS_ERR(ptr)) { rc = PTR_ERR(ptr); goto err_out; } } hyp_dir = hypfs_mkdir(root, "hyp"); if (IS_ERR(hyp_dir)) { rc = PTR_ERR(hyp_dir); goto err_out; } ptr = hypfs_create_str(hyp_dir, "type", "LPAR Hypervisor"); if (IS_ERR(ptr)) { rc = PTR_ERR(ptr); goto err_out; } rc = 0; err_out: return rc; }
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