Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Stéphane Eranian | 1041 | 88.97% | 3 | 37.50% |
David Mosberger-Tang | 114 | 9.74% | 2 | 25.00% |
Alexey Dobriyan | 12 | 1.03% | 1 | 12.50% |
Harvey Harrison | 2 | 0.17% | 1 | 12.50% |
Lucas De Marchi | 1 | 0.09% | 1 | 12.50% |
Total | 1170 | 8 |
/* * Copyright (C) 2002-2003 Hewlett-Packard Co * Stephane Eranian <eranian@hpl.hp.com> * * This file implements the default sampling buffer format * for the Linux/ia64 perfmon-2 subsystem. */ #include <linux/kernel.h> #include <linux/types.h> #include <linux/module.h> #include <linux/init.h> #include <asm/delay.h> #include <linux/smp.h> #include <asm/perfmon.h> #include <asm/perfmon_default_smpl.h> MODULE_AUTHOR("Stephane Eranian <eranian@hpl.hp.com>"); MODULE_DESCRIPTION("perfmon default sampling format"); MODULE_LICENSE("GPL"); #define DEFAULT_DEBUG 1 #ifdef DEFAULT_DEBUG #define DPRINT(a) \ do { \ if (unlikely(pfm_sysctl.debug >0)) { printk("%s.%d: CPU%d ", __func__, __LINE__, smp_processor_id()); printk a; } \ } while (0) #define DPRINT_ovfl(a) \ do { \ if (unlikely(pfm_sysctl.debug > 0 && pfm_sysctl.debug_ovfl >0)) { printk("%s.%d: CPU%d ", __func__, __LINE__, smp_processor_id()); printk a; } \ } while (0) #else #define DPRINT(a) #define DPRINT_ovfl(a) #endif static int default_validate(struct task_struct *task, unsigned int flags, int cpu, void *data) { pfm_default_smpl_arg_t *arg = (pfm_default_smpl_arg_t*)data; int ret = 0; if (data == NULL) { DPRINT(("[%d] no argument passed\n", task_pid_nr(task))); return -EINVAL; } DPRINT(("[%d] validate flags=0x%x CPU%d\n", task_pid_nr(task), flags, cpu)); /* * must hold at least the buffer header + one minimally sized entry */ if (arg->buf_size < PFM_DEFAULT_SMPL_MIN_BUF_SIZE) return -EINVAL; DPRINT(("buf_size=%lu\n", arg->buf_size)); return ret; } static int default_get_size(struct task_struct *task, unsigned int flags, int cpu, void *data, unsigned long *size) { pfm_default_smpl_arg_t *arg = (pfm_default_smpl_arg_t *)data; /* * size has been validated in default_validate */ *size = arg->buf_size; return 0; } static int default_init(struct task_struct *task, void *buf, unsigned int flags, int cpu, void *data) { pfm_default_smpl_hdr_t *hdr; pfm_default_smpl_arg_t *arg = (pfm_default_smpl_arg_t *)data; hdr = (pfm_default_smpl_hdr_t *)buf; hdr->hdr_version = PFM_DEFAULT_SMPL_VERSION; hdr->hdr_buf_size = arg->buf_size; hdr->hdr_cur_offs = sizeof(*hdr); hdr->hdr_overflows = 0UL; hdr->hdr_count = 0UL; DPRINT(("[%d] buffer=%p buf_size=%lu hdr_size=%lu hdr_version=%u cur_offs=%lu\n", task_pid_nr(task), buf, hdr->hdr_buf_size, sizeof(*hdr), hdr->hdr_version, hdr->hdr_cur_offs)); return 0; } static int default_handler(struct task_struct *task, void *buf, pfm_ovfl_arg_t *arg, struct pt_regs *regs, unsigned long stamp) { pfm_default_smpl_hdr_t *hdr; pfm_default_smpl_entry_t *ent; void *cur, *last; unsigned long *e, entry_size; unsigned int npmds, i; unsigned char ovfl_pmd; unsigned char ovfl_notify; if (unlikely(buf == NULL || arg == NULL|| regs == NULL || task == NULL)) { DPRINT(("[%d] invalid arguments buf=%p arg=%p\n", task->pid, buf, arg)); return -EINVAL; } hdr = (pfm_default_smpl_hdr_t *)buf; cur = buf+hdr->hdr_cur_offs; last = buf+hdr->hdr_buf_size; ovfl_pmd = arg->ovfl_pmd; ovfl_notify = arg->ovfl_notify; /* * precheck for sanity */ if ((last - cur) < PFM_DEFAULT_MAX_ENTRY_SIZE) goto full; npmds = hweight64(arg->smpl_pmds[0]); ent = (pfm_default_smpl_entry_t *)cur; prefetch(arg->smpl_pmds_values); entry_size = sizeof(*ent) + (npmds << 3); /* position for first pmd */ e = (unsigned long *)(ent+1); hdr->hdr_count++; DPRINT_ovfl(("[%d] count=%lu cur=%p last=%p free_bytes=%lu ovfl_pmd=%d ovfl_notify=%d npmds=%u\n", task->pid, hdr->hdr_count, cur, last, last-cur, ovfl_pmd, ovfl_notify, npmds)); /* * current = task running at the time of the overflow. * * per-task mode: * - this is usually the task being monitored. * Under certain conditions, it might be a different task * * system-wide: * - this is not necessarily the task controlling the session */ ent->pid = current->pid; ent->ovfl_pmd = ovfl_pmd; ent->last_reset_val = arg->pmd_last_reset; //pmd[0].reg_last_reset_val; /* * where did the fault happen (includes slot number) */ ent->ip = regs->cr_iip | ((regs->cr_ipsr >> 41) & 0x3); ent->tstamp = stamp; ent->cpu = smp_processor_id(); ent->set = arg->active_set; ent->tgid = current->tgid; /* * selectively store PMDs in increasing index number */ if (npmds) { unsigned long *val = arg->smpl_pmds_values; for(i=0; i < npmds; i++) { *e++ = *val++; } } /* * update position for next entry */ hdr->hdr_cur_offs += entry_size; cur += entry_size; /* * post check to avoid losing the last sample */ if ((last - cur) < PFM_DEFAULT_MAX_ENTRY_SIZE) goto full; /* * keep same ovfl_pmds, ovfl_notify */ arg->ovfl_ctrl.bits.notify_user = 0; arg->ovfl_ctrl.bits.block_task = 0; arg->ovfl_ctrl.bits.mask_monitoring = 0; arg->ovfl_ctrl.bits.reset_ovfl_pmds = 1; /* reset before returning from interrupt handler */ return 0; full: DPRINT_ovfl(("sampling buffer full free=%lu, count=%lu, ovfl_notify=%d\n", last-cur, hdr->hdr_count, ovfl_notify)); /* * increment number of buffer overflow. * important to detect duplicate set of samples. */ hdr->hdr_overflows++; /* * if no notification requested, then we saturate the buffer */ if (ovfl_notify == 0) { arg->ovfl_ctrl.bits.notify_user = 0; arg->ovfl_ctrl.bits.block_task = 0; arg->ovfl_ctrl.bits.mask_monitoring = 1; arg->ovfl_ctrl.bits.reset_ovfl_pmds = 0; } else { arg->ovfl_ctrl.bits.notify_user = 1; arg->ovfl_ctrl.bits.block_task = 1; /* ignored for non-blocking context */ arg->ovfl_ctrl.bits.mask_monitoring = 1; arg->ovfl_ctrl.bits.reset_ovfl_pmds = 0; /* no reset now */ } return -1; /* we are full, sorry */ } static int default_restart(struct task_struct *task, pfm_ovfl_ctrl_t *ctrl, void *buf, struct pt_regs *regs) { pfm_default_smpl_hdr_t *hdr; hdr = (pfm_default_smpl_hdr_t *)buf; hdr->hdr_count = 0UL; hdr->hdr_cur_offs = sizeof(*hdr); ctrl->bits.mask_monitoring = 0; ctrl->bits.reset_ovfl_pmds = 1; /* uses long-reset values */ return 0; } static int default_exit(struct task_struct *task, void *buf, struct pt_regs *regs) { DPRINT(("[%d] exit(%p)\n", task_pid_nr(task), buf)); return 0; } static pfm_buffer_fmt_t default_fmt={ .fmt_name = "default_format", .fmt_uuid = PFM_DEFAULT_SMPL_UUID, .fmt_arg_size = sizeof(pfm_default_smpl_arg_t), .fmt_validate = default_validate, .fmt_getsize = default_get_size, .fmt_init = default_init, .fmt_handler = default_handler, .fmt_restart = default_restart, .fmt_restart_active = default_restart, .fmt_exit = default_exit, }; static int __init pfm_default_smpl_init_module(void) { int ret; ret = pfm_register_buffer_fmt(&default_fmt); if (ret == 0) { printk("perfmon_default_smpl: %s v%u.%u registered\n", default_fmt.fmt_name, PFM_DEFAULT_SMPL_VERSION_MAJ, PFM_DEFAULT_SMPL_VERSION_MIN); } else { printk("perfmon_default_smpl: %s cannot register ret=%d\n", default_fmt.fmt_name, ret); } return ret; } static void __exit pfm_default_smpl_cleanup_module(void) { int ret; ret = pfm_unregister_buffer_fmt(default_fmt.fmt_uuid); printk("perfmon_default_smpl: unregister %s=%d\n", default_fmt.fmt_name, ret); } module_init(pfm_default_smpl_init_module); module_exit(pfm_default_smpl_cleanup_module);
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