s390/smp: cleanup core vs. cpu in the SCLP interface
The SCLP interface to query, configure and deconfigure CPUs actually operates on cores. For a machine without the multi-threading faciltiy a CPU and a core are equivalent but starting with System z13 a core can have multiple hardware threads, also referred to as logical CPUs. To avoid confusion replace the word 'cpu' with 'core' in the SCLP interface. Also replace MAX_CPU_ADDRESS with SCLP_MAX_CORES. The core-id is an 8-bit field, the maximum thread id is in the range 0-31. The theoretical limit for the CPU address is therefore 8191. Signed-off-by: Martin Schwidefsky <schwidefsky@de.ibm.com>
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e7086eb181
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@ -8,8 +8,6 @@
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#ifndef _ASM_S390_CPU_H
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#define _ASM_S390_CPU_H
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#define MAX_CPU_ADDRESS 255
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#ifndef __ASSEMBLY__
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#include <linux/types.h>
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@ -11,6 +11,7 @@
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#include <asm/cpu.h>
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#define SCLP_CHP_INFO_MASK_SIZE 32
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#define SCLP_MAX_CORES 256
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struct sclp_chp_info {
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u8 recognized[SCLP_CHP_INFO_MASK_SIZE];
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@ -26,7 +27,7 @@ struct sclp_ipl_info {
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char loadparm[LOADPARM_LEN];
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};
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struct sclp_cpu_entry {
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struct sclp_core_entry {
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u8 core_id;
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u8 reserved0[2];
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u8 : 3;
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@ -38,12 +39,11 @@ struct sclp_cpu_entry {
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u8 reserved1;
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} __attribute__((packed));
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struct sclp_cpu_info {
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struct sclp_core_info {
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unsigned int configured;
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unsigned int standby;
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unsigned int combined;
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int has_cpu_type;
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struct sclp_cpu_entry cpu[MAX_CPU_ADDRESS + 1];
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struct sclp_core_entry core[SCLP_MAX_CORES];
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};
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struct sclp_info {
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@ -51,7 +51,7 @@ struct sclp_info {
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unsigned char has_vt220 : 1;
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unsigned char has_siif : 1;
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unsigned char has_sigpif : 1;
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unsigned char has_cpu_type : 1;
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unsigned char has_core_type : 1;
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unsigned char has_sprp : 1;
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unsigned int ibc;
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unsigned int mtid;
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@ -60,15 +60,15 @@ struct sclp_info {
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unsigned long long rzm;
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unsigned long long rnmax;
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unsigned long long hamax;
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unsigned int max_cpu;
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unsigned int max_cores;
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unsigned long hsa_size;
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unsigned long long facilities;
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};
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extern struct sclp_info sclp;
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int sclp_get_cpu_info(struct sclp_cpu_info *info);
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int sclp_cpu_configure(u8 cpu);
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int sclp_cpu_deconfigure(u8 cpu);
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int sclp_get_core_info(struct sclp_core_info *info);
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int sclp_core_configure(u8 core);
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int sclp_core_deconfigure(u8 core);
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int sclp_sdias_blk_count(void);
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int sclp_sdias_copy(void *dest, int blk_num, int nr_blks);
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int sclp_chp_configure(struct chp_id chpid);
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@ -69,7 +69,7 @@ struct pcpu {
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u16 address; /* physical cpu address */
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};
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static u8 boot_cpu_type;
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static u8 boot_core_type;
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static struct pcpu pcpu_devices[NR_CPUS];
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unsigned int smp_cpu_mt_shift;
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@ -589,7 +589,7 @@ static inline void __smp_store_cpu_state(int cpu, u16 address, int is_boot_cpu)
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* old system. The ELF sections are picked up by the crash_dump code
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* via elfcorehdr_addr.
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*/
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static void __init smp_store_cpu_states(struct sclp_cpu_info *info)
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static void __init smp_store_cpu_states(struct sclp_core_info *info)
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{
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unsigned int cpu, address, i, j;
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int is_boot_cpu;
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@ -606,10 +606,10 @@ static void __init smp_store_cpu_states(struct sclp_cpu_info *info)
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cpu = 0;
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for (i = 0; i < info->configured; i++) {
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/* Skip CPUs with different CPU type. */
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if (info->has_cpu_type && info->cpu[i].type != boot_cpu_type)
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if (sclp.has_core_type && info->core[i].type != boot_core_type)
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continue;
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for (j = 0; j <= smp_cpu_mtid; j++, cpu++) {
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address = (info->cpu[i].core_id << smp_cpu_mt_shift) + j;
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address = (info->core[i].core_id << smp_cpu_mt_shift) + j;
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is_boot_cpu = (address == pcpu_devices[0].address);
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if (is_boot_cpu && !OLDMEM_BASE)
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/* Skip boot CPU for standard zfcp dump. */
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@ -649,22 +649,22 @@ int smp_cpu_get_polarization(int cpu)
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return pcpu_devices[cpu].polarization;
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}
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static struct sclp_cpu_info *smp_get_cpu_info(void)
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static struct sclp_core_info *smp_get_core_info(void)
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{
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static int use_sigp_detection;
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struct sclp_cpu_info *info;
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struct sclp_core_info *info;
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int address;
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info = kzalloc(sizeof(*info), GFP_KERNEL);
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if (info && (use_sigp_detection || sclp_get_cpu_info(info))) {
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if (info && (use_sigp_detection || sclp_get_core_info(info))) {
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use_sigp_detection = 1;
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for (address = 0;
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address <= (MAX_CPU_ADDRESS << smp_cpu_mt_shift);
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address < (SCLP_MAX_CORES << smp_cpu_mt_shift);
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address += (1U << smp_cpu_mt_shift)) {
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if (__pcpu_sigp_relax(address, SIGP_SENSE, 0, NULL) ==
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SIGP_CC_NOT_OPERATIONAL)
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continue;
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info->cpu[info->configured].core_id =
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info->core[info->configured].core_id =
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address >> smp_cpu_mt_shift;
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info->configured++;
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}
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@ -675,7 +675,7 @@ static struct sclp_cpu_info *smp_get_cpu_info(void)
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static int smp_add_present_cpu(int cpu);
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static int __smp_rescan_cpus(struct sclp_cpu_info *info, int sysfs_add)
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static int __smp_rescan_cpus(struct sclp_core_info *info, int sysfs_add)
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{
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struct pcpu *pcpu;
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cpumask_t avail;
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@ -686,9 +686,9 @@ static int __smp_rescan_cpus(struct sclp_cpu_info *info, int sysfs_add)
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cpumask_xor(&avail, cpu_possible_mask, cpu_present_mask);
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cpu = cpumask_first(&avail);
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for (i = 0; (i < info->combined) && (cpu < nr_cpu_ids); i++) {
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if (info->has_cpu_type && info->cpu[i].type != boot_cpu_type)
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if (sclp.has_core_type && info->core[i].type != boot_core_type)
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continue;
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address = info->cpu[i].core_id << smp_cpu_mt_shift;
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address = info->core[i].core_id << smp_cpu_mt_shift;
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for (j = 0; j <= smp_cpu_mtid; j++) {
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if (pcpu_find_address(cpu_present_mask, address + j))
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continue;
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@ -714,21 +714,21 @@ static int __smp_rescan_cpus(struct sclp_cpu_info *info, int sysfs_add)
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static void __init smp_detect_cpus(void)
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{
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unsigned int cpu, mtid, c_cpus, s_cpus;
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struct sclp_cpu_info *info;
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struct sclp_core_info *info;
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u16 address;
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/* Get CPU information */
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info = smp_get_cpu_info();
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info = smp_get_core_info();
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if (!info)
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panic("smp_detect_cpus failed to allocate memory\n");
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/* Find boot CPU type */
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if (info->has_cpu_type) {
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if (sclp.has_core_type) {
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address = stap();
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for (cpu = 0; cpu < info->combined; cpu++)
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if (info->cpu[cpu].core_id == address) {
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if (info->core[cpu].core_id == address) {
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/* The boot cpu dictates the cpu type. */
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boot_cpu_type = info->cpu[cpu].type;
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boot_core_type = info->core[cpu].type;
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break;
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}
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if (cpu >= info->combined)
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@ -741,14 +741,15 @@ static void __init smp_detect_cpus(void)
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#endif
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/* Set multi-threading state for the current system */
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mtid = boot_cpu_type ? sclp.mtid : sclp.mtid_cp;
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mtid = boot_core_type ? sclp.mtid : sclp.mtid_cp;
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mtid = (mtid < smp_max_threads) ? mtid : smp_max_threads - 1;
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pcpu_set_smt(mtid);
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/* Print number of CPUs */
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c_cpus = s_cpus = 0;
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for (cpu = 0; cpu < info->combined; cpu++) {
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if (info->has_cpu_type && info->cpu[cpu].type != boot_cpu_type)
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if (sclp.has_core_type &&
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info->core[cpu].type != boot_core_type)
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continue;
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if (cpu < info->configured)
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c_cpus += smp_cpu_mtid + 1;
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@ -885,7 +886,7 @@ void __init smp_fill_possible_mask(void)
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sclp_max = max(sclp.mtid, sclp.mtid_cp) + 1;
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sclp_max = min(smp_max_threads, sclp_max);
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sclp_max = sclp.max_cpu * sclp_max ?: nr_cpu_ids;
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sclp_max = sclp.max_cores * sclp_max ?: nr_cpu_ids;
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possible = setup_possible_cpus ?: nr_cpu_ids;
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possible = min(possible, sclp_max);
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for (cpu = 0; cpu < possible && cpu < nr_cpu_ids; cpu++)
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@ -978,7 +979,7 @@ static ssize_t cpu_configure_store(struct device *dev,
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case 0:
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if (pcpu->state != CPU_STATE_CONFIGURED)
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break;
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rc = sclp_cpu_deconfigure(pcpu->address >> smp_cpu_mt_shift);
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rc = sclp_core_deconfigure(pcpu->address >> smp_cpu_mt_shift);
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if (rc)
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break;
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for (i = 0; i <= smp_cpu_mtid; i++) {
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case 1:
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if (pcpu->state != CPU_STATE_STANDBY)
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break;
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rc = sclp_cpu_configure(pcpu->address >> smp_cpu_mt_shift);
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rc = sclp_core_configure(pcpu->address >> smp_cpu_mt_shift);
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if (rc)
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break;
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for (i = 0; i <= smp_cpu_mtid; i++) {
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@ -1108,10 +1109,10 @@ out:
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int __ref smp_rescan_cpus(void)
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{
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struct sclp_cpu_info *info;
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struct sclp_core_info *info;
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int nr;
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info = smp_get_cpu_info();
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info = smp_get_core_info();
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if (!info)
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return -ENOMEM;
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get_online_cpus();
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@ -92,8 +92,8 @@ struct read_cpu_info_sccb {
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u8 reserved[4096 - 16];
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} __attribute__((packed, aligned(PAGE_SIZE)));
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static void sclp_fill_cpu_info(struct sclp_cpu_info *info,
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struct read_cpu_info_sccb *sccb)
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static void sclp_fill_core_info(struct sclp_core_info *info,
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struct read_cpu_info_sccb *sccb)
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{
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char *page = (char *) sccb;
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info->configured = sccb->nr_configured;
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info->standby = sccb->nr_standby;
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info->combined = sccb->nr_configured + sccb->nr_standby;
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info->has_cpu_type = sclp.has_cpu_type;
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memcpy(&info->cpu, page + sccb->offset_configured,
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info->combined * sizeof(struct sclp_cpu_entry));
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memcpy(&info->core, page + sccb->offset_configured,
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info->combined * sizeof(struct sclp_core_entry));
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}
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int sclp_get_cpu_info(struct sclp_cpu_info *info)
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int sclp_get_core_info(struct sclp_core_info *info)
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{
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int rc;
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struct read_cpu_info_sccb *sccb;
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rc = -EIO;
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goto out;
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}
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sclp_fill_cpu_info(info, sccb);
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sclp_fill_core_info(info, sccb);
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out:
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free_page((unsigned long) sccb);
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return rc;
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struct sccb_header header;
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} __attribute__((packed, aligned(8)));
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static int do_cpu_configure(sclp_cmdw_t cmd)
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static int do_core_configure(sclp_cmdw_t cmd)
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{
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struct cpu_configure_sccb *sccb;
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int rc;
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return rc;
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}
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int sclp_cpu_configure(u8 cpu)
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int sclp_core_configure(u8 core)
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{
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return do_cpu_configure(SCLP_CMDW_CONFIGURE_CPU | cpu << 8);
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return do_core_configure(SCLP_CMDW_CONFIGURE_CPU | core << 8);
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}
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int sclp_cpu_deconfigure(u8 cpu)
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int sclp_core_deconfigure(u8 core)
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{
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return do_cpu_configure(SCLP_CMDW_DECONFIGURE_CPU | cpu << 8);
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return do_core_configure(SCLP_CMDW_DECONFIGURE_CPU | core << 8);
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}
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#ifdef CONFIG_MEMORY_HOTPLUG
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@ -98,7 +98,7 @@ static int __init sclp_read_info_early(struct read_info_sccb *sccb)
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static void __init sclp_facilities_detect(struct read_info_sccb *sccb)
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{
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struct sclp_cpu_entry *cpue;
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struct sclp_core_entry *cpue;
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u16 boot_cpu_address, cpu;
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if (sclp_read_info_early(sccb))
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sclp.facilities = sccb->facilities;
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sclp.has_sprp = !!(sccb->fac84 & 0x02);
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sclp.has_cpu_type = !!(sccb->fac84 & 0x01);
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sclp.has_core_type = !!(sccb->fac84 & 0x01);
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if (sccb->fac85 & 0x02)
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S390_lowcore.machine_flags |= MACHINE_FLAG_ESOP;
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sclp.rnmax = sccb->rnmax ? sccb->rnmax : sccb->rnmax2;
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if (!sccb->hcpua) {
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if (MACHINE_IS_VM)
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sclp.max_cpu = 64;
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sclp.max_cores = 64;
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else
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sclp.max_cpu = sccb->ncpurl;
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sclp.max_cores = sccb->ncpurl;
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} else {
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sclp.max_cpu = sccb->hcpua + 1;
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sclp.max_cores = sccb->hcpua + 1;
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}
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boot_cpu_address = stap();
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