/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 2007, 2010, Oracle and/or its affiliates. All rights reserved. */ /* * Copyright (c) 2009, Intel Corporation. * All Rights Reserved. */ #include #include #include #include #include #include #include #include #include #include #include static int speedstep_init(cpu_t *); static void speedstep_fini(cpu_t *); static void speedstep_power(cpuset_t, uint32_t); static void speedstep_stop(cpu_t *); static boolean_t speedstep_turbo_supported(void); /* * Interfaces for modules implementing Intel's Enhanced SpeedStep. */ cpupm_state_ops_t speedstep_ops = { "Enhanced SpeedStep Technology", speedstep_init, speedstep_fini, speedstep_power, speedstep_stop }; /* * Error returns */ #define ESS_RET_SUCCESS 0x00 #define ESS_RET_NO_PM 0x01 #define ESS_RET_UNSUP_STATE 0x02 /* * MSR registers for changing and reading processor power state. */ #define IA32_PERF_STAT_MSR 0x198 #define IA32_PERF_CTL_MSR 0x199 #define IA32_CPUID_TSC_CONSTANT 0xF30 #define IA32_MISC_ENABLE_MSR 0x1A0 #define IA32_MISC_ENABLE_EST (1<<16) #define IA32_MISC_ENABLE_CXE (1<<25) #define CPUID_TURBO_SUPPORT (1 << 1) /* * Debugging support */ #ifdef DEBUG volatile int ess_debug = 0; #define ESSDEBUG(arglist) if (ess_debug) printf arglist; #else #define ESSDEBUG(arglist) #endif /* * Write the ctrl register. How it is written, depends upon the _PCT * APCI object value. */ static void write_ctrl(cpu_acpi_handle_t handle, uint32_t ctrl) { cpu_acpi_pct_t *pct_ctrl; uint64_t reg; pct_ctrl = CPU_ACPI_PCT_CTRL(handle); switch (pct_ctrl->cr_addrspace_id) { case ACPI_ADR_SPACE_FIXED_HARDWARE: /* * Read current power state because reserved bits must be * preserved, compose new value, and write it. */ reg = rdmsr(IA32_PERF_CTL_MSR); reg &= ~((uint64_t)0xFFFF); reg |= ctrl; wrmsr(IA32_PERF_CTL_MSR, reg); break; case ACPI_ADR_SPACE_SYSTEM_IO: (void) cpu_acpi_write_port(pct_ctrl->cr_address, ctrl, pct_ctrl->cr_width); break; default: DTRACE_PROBE1(ess_ctrl_unsupported_type, uint8_t, pct_ctrl->cr_addrspace_id); return; } DTRACE_PROBE1(ess_ctrl_write, uint32_t, ctrl); } /* * Transition the current processor to the requested state. */ void speedstep_pstate_transition(uint32_t req_state) { cpupm_mach_state_t *mach_state = (cpupm_mach_state_t *)CPU->cpu_m.mcpu_pm_mach_state; cpu_acpi_handle_t handle = mach_state->ms_acpi_handle; cpu_acpi_pstate_t *req_pstate; uint32_t ctrl; req_pstate = (cpu_acpi_pstate_t *)CPU_ACPI_PSTATES(handle); req_pstate += req_state; DTRACE_PROBE1(ess_transition, uint32_t, CPU_ACPI_FREQ(req_pstate)); /* * Initiate the processor p-state change. */ ctrl = CPU_ACPI_PSTATE_CTRL(req_pstate); write_ctrl(handle, ctrl); if (mach_state->ms_turbo != NULL) cpupm_record_turbo_info(mach_state->ms_turbo, mach_state->ms_pstate.cma_state.pstate, req_state); mach_state->ms_pstate.cma_state.pstate = req_state; cpu_set_curr_clock(((uint64_t)CPU_ACPI_FREQ(req_pstate) * 1000000)); } static void speedstep_power(cpuset_t set, uint32_t req_state) { /* * If thread is already running on target CPU then just * make the transition request. Otherwise, we'll need to * make a cross-call. */ kpreempt_disable(); if (CPU_IN_SET(set, CPU->cpu_id)) { speedstep_pstate_transition(req_state); CPUSET_DEL(set, CPU->cpu_id); } if (!CPUSET_ISNULL(set)) { xc_call((xc_arg_t)req_state, 0, 0, CPUSET2BV(set), (xc_func_t)speedstep_pstate_transition); } kpreempt_enable(); } /* * Validate that this processor supports Speedstep and if so, * get the P-state data from ACPI and cache it. */ static int speedstep_init(cpu_t *cp) { cpupm_mach_state_t *mach_state = (cpupm_mach_state_t *)cp->cpu_m.mcpu_pm_mach_state; cpu_acpi_handle_t handle = mach_state->ms_acpi_handle; cpu_acpi_pct_t *pct_stat; static int logged = 0; ESSDEBUG(("speedstep_init: processor %d\n", cp->cpu_id)); /* * Cache the P-state specific ACPI data. */ if (cpu_acpi_cache_pstate_data(handle) != 0) { if (!logged) { cmn_err(CE_NOTE, "!SpeedStep support is being " "disabled due to errors parsing ACPI P-state " "objects exported by BIOS."); logged = 1; } speedstep_fini(cp); return (ESS_RET_NO_PM); } pct_stat = CPU_ACPI_PCT_STATUS(handle); switch (pct_stat->cr_addrspace_id) { case ACPI_ADR_SPACE_FIXED_HARDWARE: ESSDEBUG(("Transitions will use fixed hardware\n")); break; case ACPI_ADR_SPACE_SYSTEM_IO: ESSDEBUG(("Transitions will use system IO\n")); break; default: cmn_err(CE_WARN, "!_PCT conifgured for unsupported " "addrspace = %d.", pct_stat->cr_addrspace_id); cmn_err(CE_NOTE, "!CPU power management will not function."); speedstep_fini(cp); return (ESS_RET_NO_PM); } cpupm_alloc_domains(cp, CPUPM_P_STATES); if (speedstep_turbo_supported()) mach_state->ms_turbo = cpupm_turbo_init(cp); ESSDEBUG(("Processor %d succeeded.\n", cp->cpu_id)) return (ESS_RET_SUCCESS); } /* * Free resources allocated by speedstep_init(). */ static void speedstep_fini(cpu_t *cp) { cpupm_mach_state_t *mach_state = (cpupm_mach_state_t *)(cp->cpu_m.mcpu_pm_mach_state); cpu_acpi_handle_t handle = mach_state->ms_acpi_handle; cpupm_free_domains(&cpupm_pstate_domains); cpu_acpi_free_pstate_data(handle); if (mach_state->ms_turbo != NULL) cpupm_turbo_fini(mach_state->ms_turbo); mach_state->ms_turbo = NULL; } static void speedstep_stop(cpu_t *cp) { cpupm_mach_state_t *mach_state = (cpupm_mach_state_t *)(cp->cpu_m.mcpu_pm_mach_state); cpu_acpi_handle_t handle = mach_state->ms_acpi_handle; cpupm_remove_domains(cp, CPUPM_P_STATES, &cpupm_pstate_domains); cpu_acpi_free_pstate_data(handle); if (mach_state->ms_turbo != NULL) cpupm_turbo_fini(mach_state->ms_turbo); mach_state->ms_turbo = NULL; } boolean_t speedstep_supported(uint_t family, uint_t model) { struct cpuid_regs cpu_regs; /* Required features */ if (!is_x86_feature(x86_featureset, X86FSET_CPUID) || !is_x86_feature(x86_featureset, X86FSET_MSR)) { return (B_FALSE); } /* * We only support family/model combinations which * are P-state TSC invariant. */ if (!((family == 0xf && model >= 0x3) || (family == 0x6 && model >= 0xe))) { return (B_FALSE); } /* * Enhanced SpeedStep supported? */ cpu_regs.cp_eax = 0x1; (void) __cpuid_insn(&cpu_regs); if (!(cpu_regs.cp_ecx & CPUID_INTC_ECX_EST)) { return (B_FALSE); } return (B_TRUE); } boolean_t speedstep_turbo_supported(void) { struct cpuid_regs cpu_regs; /* Required features */ if (!is_x86_feature(x86_featureset, X86FSET_CPUID) || !is_x86_feature(x86_featureset, X86FSET_MSR)) { return (B_FALSE); } /* * turbo mode supported? */ cpu_regs.cp_eax = 0x6; (void) __cpuid_insn(&cpu_regs); if (!(cpu_regs.cp_eax & CPUID_TURBO_SUPPORT)) { return (B_FALSE); } return (B_TRUE); }