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linux/arch/s390/include/asm/diag.h
Heiko Carstens 0dafe9968a s390: Use inline qualifier for all EX_TABLE and ALTERNATIVE inline assemblies 
Use asm_inline for all inline assemblies which make use of the EX_TABLE or
ALTERNATIVE macros.

These macros expand to many lines and the compiler assumes the number of
lines within an inline assembly is the same as the number of instructions
within an inline assembly. This has an effect on inlining and loop
unrolling decisions.

In order to avoid incorrect assumptions use asm_inline, which tells the
compiler that an inline assembly has the smallest possible size.

In order to avoid confusion when asm_inline should be used or not, since a
couple of inline assemblies are quite large: the rule is to always use
asm_inline whenever the EX_TABLE or ALTERNATIVE macro is used. In specific
cases there may be reasons to not follow this guideline, but that should
be documented with the corresponding code.

Using the inline qualifier everywhere has only a small effect on the kernel
image size:

add/remove: 0/10 grow/shrink: 19/8 up/down: 1492/-1858 (-366)

The only location where this seems to matter is load_unaligned_zeropad()
from word-at-a-time.h where the compiler inlines more functions within the
dcache code, which is indeed code where performance matters.

Suggested-by: Juergen Christ <jchrist@linux.ibm.com>
Reviewed-by: Juergen Christ <jchrist@linux.ibm.com>
Signed-off-by: Heiko Carstens <hca@linux.ibm.com>
Signed-off-by: Vasily Gorbik <gor@linux.ibm.com>
2025-03-18 17:13:51 +01:00

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/* SPDX-License-Identifier: GPL-2.0 */
/*
* s390 diagnose functions
*
* Copyright IBM Corp. 2007
* Author(s): Michael Holzheu <holzheu@de.ibm.com>
*/
#ifndef _ASM_S390_DIAG_H
#define _ASM_S390_DIAG_H
#include <linux/if_ether.h>
#include <linux/percpu.h>
#include <asm/asm-extable.h>
#include <asm/sclp.h>
#include <asm/cio.h>
enum diag_stat_enum {
DIAG_STAT_X008,
DIAG_STAT_X00C,
DIAG_STAT_X010,
DIAG_STAT_X014,
DIAG_STAT_X044,
DIAG_STAT_X064,
DIAG_STAT_X08C,
DIAG_STAT_X09C,
DIAG_STAT_X0DC,
DIAG_STAT_X204,
DIAG_STAT_X210,
DIAG_STAT_X224,
DIAG_STAT_X250,
DIAG_STAT_X258,
DIAG_STAT_X26C,
DIAG_STAT_X288,
DIAG_STAT_X2C4,
DIAG_STAT_X2FC,
DIAG_STAT_X304,
DIAG_STAT_X308,
DIAG_STAT_X310,
DIAG_STAT_X318,
DIAG_STAT_X320,
DIAG_STAT_X324,
DIAG_STAT_X49C,
DIAG_STAT_X500,
NR_DIAG_STAT
};
void diag_stat_inc(enum diag_stat_enum nr);
void diag_stat_inc_norecursion(enum diag_stat_enum nr);
struct hypfs_diag0c_entry;
/*
* Diagnose 0c: Pseudo Timer
*/
void diag0c(struct hypfs_diag0c_entry *data);
/*
* Diagnose 10: Release page range
*/
static inline void diag10_range(unsigned long start_pfn, unsigned long num_pfn)
{
unsigned long start_addr, end_addr;
start_addr = pfn_to_phys(start_pfn);
end_addr = pfn_to_phys(start_pfn + num_pfn - 1);
diag_stat_inc(DIAG_STAT_X010);
asm_inline volatile(
"0: diag %0,%1,0x10\n"
"1: nopr %%r7\n"
EX_TABLE(0b, 1b)
EX_TABLE(1b, 1b)
: : "a" (start_addr), "a" (end_addr));
}
/*
* Diagnose 14: Input spool file manipulation
*/
extern int diag14(unsigned long rx, unsigned long ry1, unsigned long subcode);
/*
* Diagnose 210: Get information about a virtual device
*/
struct diag210 {
u16 vrdcdvno; /* device number (input) */
u16 vrdclen; /* data block length (input) */
u8 vrdcvcla; /* virtual device class (output) */
u8 vrdcvtyp; /* virtual device type (output) */
u8 vrdcvsta; /* virtual device status (output) */
u8 vrdcvfla; /* virtual device flags (output) */
u8 vrdcrccl; /* real device class (output) */
u8 vrdccrty; /* real device type (output) */
u8 vrdccrmd; /* real device model (output) */
u8 vrdccrft; /* real device feature (output) */
} __packed __aligned(4);
extern int diag210(struct diag210 *addr);
struct diag8c {
u8 flags;
u8 num_partitions;
u16 width;
u16 height;
u8 data[];
} __packed __aligned(4);
extern int diag8c(struct diag8c *out, struct ccw_dev_id *devno);
/* bit is set in flags, when physical cpu info is included in diag 204 data */
#define DIAG204_LPAR_PHYS_FLG 0x80
#define DIAG204_LPAR_NAME_LEN 8 /* lpar name len in diag 204 data */
#define DIAG204_CPU_NAME_LEN 16 /* type name len of cpus in diag224 name table */
/* diag 204 subcodes */
enum diag204_sc {
DIAG204_SUBC_STIB4 = 4,
DIAG204_SUBC_RSI = 5,
DIAG204_SUBC_STIB6 = 6,
DIAG204_SUBC_STIB7 = 7
};
#define DIAG204_SUBCODE_MASK 0xffff
#define DIAG204_BIF_BIT 0x80000000
#define DIAG204_BUSY_WAIT (HZ / 10)
/* The two available diag 204 data formats */
enum diag204_format {
DIAG204_INFO_SIMPLE = 0,
DIAG204_INFO_EXT = 0x00010000
};
enum diag204_cpu_flags {
DIAG204_CPU_ONLINE = 0x20,
DIAG204_CPU_CAPPED = 0x40,
};
struct diag204_info_blk_hdr {
__u8 npar;
__u8 flags;
__u16 tslice;
__u16 phys_cpus;
__u16 this_part;
__u64 curtod;
} __packed;
struct diag204_x_info_blk_hdr {
__u8 npar;
__u8 flags;
__u16 tslice;
__u16 phys_cpus;
__u16 this_part;
__u64 curtod1;
__u64 curtod2;
char reserved[40];
} __packed;
struct diag204_part_hdr {
__u8 pn;
__u8 cpus;
char reserved[6];
char part_name[DIAG204_LPAR_NAME_LEN];
} __packed;
struct diag204_x_part_hdr {
__u8 pn;
__u8 cpus;
__u8 rcpus;
__u8 pflag;
__u32 mlu;
char part_name[DIAG204_LPAR_NAME_LEN];
char lpc_name[8];
char os_name[8];
__u64 online_cs;
__u64 online_es;
__u8 upid;
__u8 reserved:3;
__u8 mtid:5;
char reserved1[2];
__u32 group_mlu;
char group_name[8];
char hardware_group_name[8];
char reserved2[24];
} __packed;
struct diag204_cpu_info {
__u16 cpu_addr;
char reserved1[2];
__u8 ctidx;
__u8 cflag;
__u16 weight;
__u64 acc_time;
__u64 lp_time;
} __packed;
struct diag204_x_cpu_info {
__u16 cpu_addr;
char reserved1[2];
__u8 ctidx;
__u8 cflag;
__u16 weight;
__u64 acc_time;
__u64 lp_time;
__u16 min_weight;
__u16 cur_weight;
__u16 max_weight;
char reseved2[2];
__u64 online_time;
__u64 wait_time;
__u32 pma_weight;
__u32 polar_weight;
__u32 cpu_type_cap;
__u32 group_cpu_type_cap;
char reserved3[32];
} __packed;
struct diag204_phys_hdr {
char reserved1[1];
__u8 cpus;
char reserved2[6];
char mgm_name[8];
} __packed;
struct diag204_x_phys_hdr {
char reserved1[1];
__u8 cpus;
char reserved2[6];
char mgm_name[8];
char reserved3[80];
} __packed;
struct diag204_phys_cpu {
__u16 cpu_addr;
char reserved1[2];
__u8 ctidx;
char reserved2[3];
__u64 mgm_time;
char reserved3[8];
} __packed;
struct diag204_x_phys_cpu {
__u16 cpu_addr;
char reserved1[2];
__u8 ctidx;
char reserved2[1];
__u16 weight;
__u64 mgm_time;
char reserved3[80];
} __packed;
struct diag204_x_part_block {
struct diag204_x_part_hdr hdr;
struct diag204_x_cpu_info cpus[];
} __packed;
struct diag204_x_phys_block {
struct diag204_x_phys_hdr hdr;
struct diag204_x_phys_cpu cpus[];
} __packed;
enum diag26c_sc {
DIAG26C_PORT_VNIC = 0x00000024,
DIAG26C_MAC_SERVICES = 0x00000030
};
enum diag26c_version {
DIAG26C_VERSION2 = 0x00000002, /* z/VM 5.4.0 */
DIAG26C_VERSION6_VM65918 = 0x00020006 /* z/VM 6.4.0 + VM65918 */
};
#define DIAG26C_VNIC_INFO 0x0002
struct diag26c_vnic_req {
u32 resp_buf_len;
u32 resp_version;
u16 req_format;
u16 vlan_id;
u64 sys_name;
u8 res[2];
u16 devno;
} __packed __aligned(8);
#define VNIC_INFO_PROT_L3 1
#define VNIC_INFO_PROT_L2 2
/* Note: this is the bare minimum, use it for uninitialized VNICs only. */
struct diag26c_vnic_resp {
u32 version;
u32 entry_cnt;
/* VNIC info: */
u32 next_entry;
u64 owner;
u16 devno;
u8 status;
u8 type;
u64 lan_owner;
u64 lan_name;
u64 port_name;
u8 port_type;
u8 ext_status:6;
u8 protocol:2;
u16 base_devno;
u32 port_num;
u32 ifindex;
u32 maxinfo;
u32 dev_count;
/* 3x device info: */
u8 dev_info1[28];
u8 dev_info2[28];
u8 dev_info3[28];
} __packed __aligned(8);
#define DIAG26C_GET_MAC 0x0000
struct diag26c_mac_req {
u32 resp_buf_len;
u32 resp_version;
u16 op_code;
u16 devno;
u8 res[4];
};
struct diag26c_mac_resp {
u32 version;
u8 mac[ETH_ALEN];
u8 res[2];
} __aligned(8);
#define CPNC_LINUX 0x4
union diag318_info {
unsigned long val;
struct {
unsigned long cpnc : 8;
unsigned long cpvc : 56;
};
};
static inline bool diag204_has_bif(void)
{
return sclp.has_diag204_bif;
}
int diag204(unsigned long subcode, unsigned long size, void *addr);
int diag224(void *ptr);
int diag26c(void *req, void *resp, enum diag26c_sc subcode);
struct hypfs_diag0c_entry;
/*
* This structure must contain only pointers/references into
* the AMODE31 text section.
*/
struct diag_ops {
int (*diag210)(struct diag210 *addr);
int (*diag26c)(unsigned long rx, unsigned long rx1, enum diag26c_sc subcode);
int (*diag14)(unsigned long rx, unsigned long ry1, unsigned long subcode);
int (*diag8c)(struct diag8c *addr, struct ccw_dev_id *devno, size_t len);
void (*diag0c)(unsigned long rx);
void (*diag308_reset)(void);
};
extern struct diag_ops diag_amode31_ops;
extern struct diag210 *__diag210_tmp_amode31;
int _diag210_amode31(struct diag210 *addr);
int _diag26c_amode31(unsigned long rx, unsigned long rx1, enum diag26c_sc subcode);
int _diag14_amode31(unsigned long rx, unsigned long ry1, unsigned long subcode);
void _diag0c_amode31(unsigned long rx);
void _diag308_reset_amode31(void);
int _diag8c_amode31(struct diag8c *addr, struct ccw_dev_id *devno, size_t len);
/* diag 49c subcodes */
enum diag49c_sc {
DIAG49C_SUBC_ACK = 0,
DIAG49C_SUBC_REG = 1
};
int diag49c(unsigned long subcode);
#endif /* _ASM_S390_DIAG_H */
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