Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Dominik Brodowski | 1448 | 97.84% | 1 | 33.33% |
Thomas Renninger | 32 | 2.16% | 2 | 66.67% |
Total | 1480 | 3 |
/* * (C) 2010,2011 Thomas Renninger <trenn@suse.de>, Novell Inc. * * Licensed under the terms of the GNU GPL License version 2. * * PCI initialization based on example code from: * Andreas Herrmann <andreas.herrmann3@amd.com> */ #if defined(__i386__) || defined(__x86_64__) #include <stdio.h> #include <stdlib.h> #include <stdint.h> #include <time.h> #include <string.h> #include <pci/pci.h> #include "idle_monitor/cpupower-monitor.h" #include "helpers/helpers.h" #define PCI_NON_PC0_OFFSET 0xb0 #define PCI_PC1_OFFSET 0xb4 #define PCI_PC6_OFFSET 0xb8 #define PCI_MONITOR_ENABLE_REG 0xe0 #define PCI_NON_PC0_ENABLE_BIT 0 #define PCI_PC1_ENABLE_BIT 1 #define PCI_PC6_ENABLE_BIT 2 #define PCI_NBP1_STAT_OFFSET 0x98 #define PCI_NBP1_ACTIVE_BIT 2 #define PCI_NBP1_ENTERED_BIT 1 #define PCI_NBP1_CAP_OFFSET 0x90 #define PCI_NBP1_CAPABLE_BIT 31 #define OVERFLOW_MS 343597 /* 32 bit register filled at 12500 HZ (1 tick per 80ns) */ enum amd_fam14h_states {NON_PC0 = 0, PC1, PC6, NBP1, AMD_FAM14H_STATE_NUM}; static int fam14h_get_count_percent(unsigned int self_id, double *percent, unsigned int cpu); static int fam14h_nbp1_count(unsigned int id, unsigned long long *count, unsigned int cpu); static cstate_t amd_fam14h_cstates[AMD_FAM14H_STATE_NUM] = { { .name = "!PC0", .desc = N_("Package in sleep state (PC1 or deeper)"), .id = NON_PC0, .range = RANGE_PACKAGE, .get_count_percent = fam14h_get_count_percent, }, { .name = "PC1", .desc = N_("Processor Package C1"), .id = PC1, .range = RANGE_PACKAGE, .get_count_percent = fam14h_get_count_percent, }, { .name = "PC6", .desc = N_("Processor Package C6"), .id = PC6, .range = RANGE_PACKAGE, .get_count_percent = fam14h_get_count_percent, }, { .name = "NBP1", .desc = N_("North Bridge P1 boolean counter (returns 0 or 1)"), .id = NBP1, .range = RANGE_PACKAGE, .get_count = fam14h_nbp1_count, }, }; static struct pci_access *pci_acc; static struct pci_dev *amd_fam14h_pci_dev; static int nbp1_entered; struct timespec start_time; static unsigned long long timediff; #ifdef DEBUG struct timespec dbg_time; long dbg_timediff; #endif static unsigned long long *previous_count[AMD_FAM14H_STATE_NUM]; static unsigned long long *current_count[AMD_FAM14H_STATE_NUM]; static int amd_fam14h_get_pci_info(struct cstate *state, unsigned int *pci_offset, unsigned int *enable_bit, unsigned int cpu) { switch (state->id) { case NON_PC0: *enable_bit = PCI_NON_PC0_ENABLE_BIT; *pci_offset = PCI_NON_PC0_OFFSET; break; case PC1: *enable_bit = PCI_PC1_ENABLE_BIT; *pci_offset = PCI_PC1_OFFSET; break; case PC6: *enable_bit = PCI_PC6_ENABLE_BIT; *pci_offset = PCI_PC6_OFFSET; break; case NBP1: *enable_bit = PCI_NBP1_ENTERED_BIT; *pci_offset = PCI_NBP1_STAT_OFFSET; break; default: return -1; }; return 0; } static int amd_fam14h_init(cstate_t *state, unsigned int cpu) { int enable_bit, pci_offset, ret; uint32_t val; ret = amd_fam14h_get_pci_info(state, &pci_offset, &enable_bit, cpu); if (ret) return ret; /* NBP1 needs extra treating -> write 1 to D18F6x98 bit 1 for init */ if (state->id == NBP1) { val = pci_read_long(amd_fam14h_pci_dev, pci_offset); val |= 1 << enable_bit; val = pci_write_long(amd_fam14h_pci_dev, pci_offset, val); return ret; } /* Enable monitor */ val = pci_read_long(amd_fam14h_pci_dev, PCI_MONITOR_ENABLE_REG); dprint("Init %s: read at offset: 0x%x val: %u\n", state->name, PCI_MONITOR_ENABLE_REG, (unsigned int) val); val |= 1 << enable_bit; pci_write_long(amd_fam14h_pci_dev, PCI_MONITOR_ENABLE_REG, val); dprint("Init %s: offset: 0x%x enable_bit: %d - val: %u (%u)\n", state->name, PCI_MONITOR_ENABLE_REG, enable_bit, (unsigned int) val, cpu); /* Set counter to zero */ pci_write_long(amd_fam14h_pci_dev, pci_offset, 0); previous_count[state->id][cpu] = 0; return 0; } static int amd_fam14h_disable(cstate_t *state, unsigned int cpu) { int enable_bit, pci_offset, ret; uint32_t val; ret = amd_fam14h_get_pci_info(state, &pci_offset, &enable_bit, cpu); if (ret) return ret; val = pci_read_long(amd_fam14h_pci_dev, pci_offset); dprint("%s: offset: 0x%x %u\n", state->name, pci_offset, val); if (state->id == NBP1) { /* was the bit whether NBP1 got entered set? */ nbp1_entered = (val & (1 << PCI_NBP1_ACTIVE_BIT)) | (val & (1 << PCI_NBP1_ENTERED_BIT)); dprint("NBP1 was %sentered - 0x%x - enable_bit: " "%d - pci_offset: 0x%x\n", nbp1_entered ? "" : "not ", val, enable_bit, pci_offset); return ret; } current_count[state->id][cpu] = val; dprint("%s: Current - %llu (%u)\n", state->name, current_count[state->id][cpu], cpu); dprint("%s: Previous - %llu (%u)\n", state->name, previous_count[state->id][cpu], cpu); val = pci_read_long(amd_fam14h_pci_dev, PCI_MONITOR_ENABLE_REG); val &= ~(1 << enable_bit); pci_write_long(amd_fam14h_pci_dev, PCI_MONITOR_ENABLE_REG, val); return 0; } static int fam14h_nbp1_count(unsigned int id, unsigned long long *count, unsigned int cpu) { if (id == NBP1) { if (nbp1_entered) *count = 1; else *count = 0; return 0; } return -1; } static int fam14h_get_count_percent(unsigned int id, double *percent, unsigned int cpu) { unsigned long diff; if (id >= AMD_FAM14H_STATE_NUM) return -1; /* residency count in 80ns -> divide through 12.5 to get us residency */ diff = current_count[id][cpu] - previous_count[id][cpu]; if (timediff == 0) *percent = 0.0; else *percent = 100.0 * diff / timediff / 12.5; dprint("Timediff: %llu - res~: %lu us - percent: %.2f %%\n", timediff, diff * 10 / 125, *percent); return 0; } static int amd_fam14h_start(void) { int num, cpu; clock_gettime(CLOCK_REALTIME, &start_time); for (num = 0; num < AMD_FAM14H_STATE_NUM; num++) { for (cpu = 0; cpu < cpu_count; cpu++) amd_fam14h_init(&amd_fam14h_cstates[num], cpu); } #ifdef DEBUG clock_gettime(CLOCK_REALTIME, &dbg_time); dbg_timediff = timespec_diff_us(start_time, dbg_time); dprint("Enabling counters took: %lu us\n", dbg_timediff); #endif return 0; } static int amd_fam14h_stop(void) { int num, cpu; struct timespec end_time; clock_gettime(CLOCK_REALTIME, &end_time); for (num = 0; num < AMD_FAM14H_STATE_NUM; num++) { for (cpu = 0; cpu < cpu_count; cpu++) amd_fam14h_disable(&amd_fam14h_cstates[num], cpu); } #ifdef DEBUG clock_gettime(CLOCK_REALTIME, &dbg_time); dbg_timediff = timespec_diff_us(end_time, dbg_time); dprint("Disabling counters took: %lu ns\n", dbg_timediff); #endif timediff = timespec_diff_us(start_time, end_time); if (timediff / 1000 > OVERFLOW_MS) print_overflow_err((unsigned int)timediff / 1000000, OVERFLOW_MS / 1000); return 0; } static int is_nbp1_capable(void) { uint32_t val; val = pci_read_long(amd_fam14h_pci_dev, PCI_NBP1_CAP_OFFSET); return val & (1 << 31); } struct cpuidle_monitor *amd_fam14h_register(void) { int num; if (cpupower_cpu_info.vendor != X86_VENDOR_AMD) return NULL; if (cpupower_cpu_info.family == 0x14) strncpy(amd_fam14h_monitor.name, "Fam_14h", MONITOR_NAME_LEN - 1); else if (cpupower_cpu_info.family == 0x12) strncpy(amd_fam14h_monitor.name, "Fam_12h", MONITOR_NAME_LEN - 1); else return NULL; /* We do not alloc for nbp1 machine wide counter */ for (num = 0; num < AMD_FAM14H_STATE_NUM - 1; num++) { previous_count[num] = calloc(cpu_count, sizeof(unsigned long long)); current_count[num] = calloc(cpu_count, sizeof(unsigned long long)); } /* We need PCI device: Slot 18, Func 6, compare with BKDG for fam 12h/14h */ amd_fam14h_pci_dev = pci_slot_func_init(&pci_acc, 0x18, 6); if (amd_fam14h_pci_dev == NULL || pci_acc == NULL) return NULL; if (!is_nbp1_capable()) amd_fam14h_monitor.hw_states_num = AMD_FAM14H_STATE_NUM - 1; amd_fam14h_monitor.name_len = strlen(amd_fam14h_monitor.name); return &amd_fam14h_monitor; } static void amd_fam14h_unregister(void) { int num; for (num = 0; num < AMD_FAM14H_STATE_NUM - 1; num++) { free(previous_count[num]); free(current_count[num]); } pci_cleanup(pci_acc); } struct cpuidle_monitor amd_fam14h_monitor = { .name = "", .hw_states = amd_fam14h_cstates, .hw_states_num = AMD_FAM14H_STATE_NUM, .start = amd_fam14h_start, .stop = amd_fam14h_stop, .do_register = amd_fam14h_register, .unregister = amd_fam14h_unregister, .needs_root = 1, .overflow_s = OVERFLOW_MS / 1000, }; #endif /* #if defined(__i386__) || defined(__x86_64__) */
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