6396bb2215
The kzalloc() function has a 2-factor argument form, kcalloc(). This patch replaces cases of: kzalloc(a * b, gfp) with: kcalloc(a * b, gfp) as well as handling cases of: kzalloc(a * b * c, gfp) with: kzalloc(array3_size(a, b, c), gfp) as it's slightly less ugly than: kzalloc_array(array_size(a, b), c, gfp) This does, however, attempt to ignore constant size factors like: kzalloc(4 * 1024, gfp) though any constants defined via macros get caught up in the conversion. Any factors with a sizeof() of "unsigned char", "char", and "u8" were dropped, since they're redundant. The Coccinelle script used for this was: // Fix redundant parens around sizeof(). @@ type TYPE; expression THING, E; @@ ( kzalloc( - (sizeof(TYPE)) * E + sizeof(TYPE) * E , ...) | kzalloc( - (sizeof(THING)) * E + sizeof(THING) * E , ...) ) // Drop single-byte sizes and redundant parens. @@ expression COUNT; typedef u8; typedef __u8; @@ ( kzalloc( - sizeof(u8) * (COUNT) + COUNT , ...) | kzalloc( - sizeof(__u8) * (COUNT) + COUNT , ...) | kzalloc( - sizeof(char) * (COUNT) + COUNT , ...) | kzalloc( - sizeof(unsigned char) * (COUNT) + COUNT , ...) | kzalloc( - sizeof(u8) * COUNT + COUNT , ...) | kzalloc( - sizeof(__u8) * COUNT + COUNT , ...) | kzalloc( - sizeof(char) * COUNT + COUNT , ...) | kzalloc( - sizeof(unsigned char) * COUNT + COUNT , ...) ) // 2-factor product with sizeof(type/expression) and identifier or constant. @@ type TYPE; expression THING; identifier COUNT_ID; constant COUNT_CONST; @@ ( - kzalloc + kcalloc ( - sizeof(TYPE) * (COUNT_ID) + COUNT_ID, sizeof(TYPE) , ...) | - kzalloc + kcalloc ( - sizeof(TYPE) * COUNT_ID + COUNT_ID, sizeof(TYPE) , ...) | - kzalloc + kcalloc ( - sizeof(TYPE) * (COUNT_CONST) + COUNT_CONST, sizeof(TYPE) , ...) | - kzalloc + kcalloc ( - sizeof(TYPE) * COUNT_CONST + COUNT_CONST, sizeof(TYPE) , ...) | - kzalloc + kcalloc ( - sizeof(THING) * (COUNT_ID) + COUNT_ID, sizeof(THING) , ...) | - kzalloc + kcalloc ( - sizeof(THING) * COUNT_ID + COUNT_ID, sizeof(THING) , ...) | - kzalloc + kcalloc ( - sizeof(THING) * (COUNT_CONST) + COUNT_CONST, sizeof(THING) , ...) | - kzalloc + kcalloc ( - sizeof(THING) * COUNT_CONST + COUNT_CONST, sizeof(THING) , ...) ) // 2-factor product, only identifiers. @@ identifier SIZE, COUNT; @@ - kzalloc + kcalloc ( - SIZE * COUNT + COUNT, SIZE , ...) // 3-factor product with 1 sizeof(type) or sizeof(expression), with // redundant parens removed. @@ expression THING; identifier STRIDE, COUNT; type TYPE; @@ ( kzalloc( - sizeof(TYPE) * (COUNT) * (STRIDE) + array3_size(COUNT, STRIDE, sizeof(TYPE)) , ...) | kzalloc( - sizeof(TYPE) * (COUNT) * STRIDE + array3_size(COUNT, STRIDE, sizeof(TYPE)) , ...) | kzalloc( - sizeof(TYPE) * COUNT * (STRIDE) + array3_size(COUNT, STRIDE, sizeof(TYPE)) , ...) | kzalloc( - sizeof(TYPE) * COUNT * STRIDE + array3_size(COUNT, STRIDE, sizeof(TYPE)) , ...) | kzalloc( - sizeof(THING) * (COUNT) * (STRIDE) + array3_size(COUNT, STRIDE, sizeof(THING)) , ...) | kzalloc( - sizeof(THING) * (COUNT) * STRIDE + array3_size(COUNT, STRIDE, sizeof(THING)) , ...) | kzalloc( - sizeof(THING) * COUNT * (STRIDE) + array3_size(COUNT, STRIDE, sizeof(THING)) , ...) | kzalloc( - sizeof(THING) * COUNT * STRIDE + array3_size(COUNT, STRIDE, sizeof(THING)) , ...) ) // 3-factor product with 2 sizeof(variable), with redundant parens removed. @@ expression THING1, THING2; identifier COUNT; type TYPE1, TYPE2; @@ ( kzalloc( - sizeof(TYPE1) * sizeof(TYPE2) * COUNT + array3_size(COUNT, sizeof(TYPE1), sizeof(TYPE2)) , ...) | kzalloc( - sizeof(TYPE1) * sizeof(THING2) * (COUNT) + array3_size(COUNT, sizeof(TYPE1), sizeof(TYPE2)) , ...) | kzalloc( - sizeof(THING1) * sizeof(THING2) * COUNT + array3_size(COUNT, sizeof(THING1), sizeof(THING2)) , ...) | kzalloc( - sizeof(THING1) * sizeof(THING2) * (COUNT) + array3_size(COUNT, sizeof(THING1), sizeof(THING2)) , ...) | kzalloc( - sizeof(TYPE1) * sizeof(THING2) * COUNT + array3_size(COUNT, sizeof(TYPE1), sizeof(THING2)) , ...) | kzalloc( - sizeof(TYPE1) * sizeof(THING2) * (COUNT) + array3_size(COUNT, sizeof(TYPE1), sizeof(THING2)) , ...) ) // 3-factor product, only identifiers, with redundant parens removed. @@ identifier STRIDE, SIZE, COUNT; @@ ( kzalloc( - (COUNT) * STRIDE * SIZE + array3_size(COUNT, STRIDE, SIZE) , ...) | kzalloc( - COUNT * (STRIDE) * SIZE + array3_size(COUNT, STRIDE, SIZE) , ...) | kzalloc( - COUNT * STRIDE * (SIZE) + array3_size(COUNT, STRIDE, SIZE) , ...) | kzalloc( - (COUNT) * (STRIDE) * SIZE + array3_size(COUNT, STRIDE, SIZE) , ...) | kzalloc( - COUNT * (STRIDE) * (SIZE) + array3_size(COUNT, STRIDE, SIZE) , ...) | kzalloc( - (COUNT) * STRIDE * (SIZE) + array3_size(COUNT, STRIDE, SIZE) , ...) | kzalloc( - (COUNT) * (STRIDE) * (SIZE) + array3_size(COUNT, STRIDE, SIZE) , ...) | kzalloc( - COUNT * STRIDE * SIZE + array3_size(COUNT, STRIDE, SIZE) , ...) ) // Any remaining multi-factor products, first at least 3-factor products, // when they're not all constants... @@ expression E1, E2, E3; constant C1, C2, C3; @@ ( kzalloc(C1 * C2 * C3, ...) | kzalloc( - (E1) * E2 * E3 + array3_size(E1, E2, E3) , ...) | kzalloc( - (E1) * (E2) * E3 + array3_size(E1, E2, E3) , ...) | kzalloc( - (E1) * (E2) * (E3) + array3_size(E1, E2, E3) , ...) | kzalloc( - E1 * E2 * E3 + array3_size(E1, E2, E3) , ...) ) // And then all remaining 2 factors products when they're not all constants, // keeping sizeof() as the second factor argument. @@ expression THING, E1, E2; type TYPE; constant C1, C2, C3; @@ ( kzalloc(sizeof(THING) * C2, ...) | kzalloc(sizeof(TYPE) * C2, ...) | kzalloc(C1 * C2 * C3, ...) | kzalloc(C1 * C2, ...) | - kzalloc + kcalloc ( - sizeof(TYPE) * (E2) + E2, sizeof(TYPE) , ...) | - kzalloc + kcalloc ( - sizeof(TYPE) * E2 + E2, sizeof(TYPE) , ...) | - kzalloc + kcalloc ( - sizeof(THING) * (E2) + E2, sizeof(THING) , ...) | - kzalloc + kcalloc ( - sizeof(THING) * E2 + E2, sizeof(THING) , ...) | - kzalloc + kcalloc ( - (E1) * E2 + E1, E2 , ...) | - kzalloc + kcalloc ( - (E1) * (E2) + E1, E2 , ...) | - kzalloc + kcalloc ( - E1 * E2 + E1, E2 , ...) ) Signed-off-by: Kees Cook <keescook@chromium.org>
357 lines
7.6 KiB
C
357 lines
7.6 KiB
C
/*
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* This file provides the ACPI based P-state support. This
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* module works with generic cpufreq infrastructure. Most of
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* the code is based on i386 version
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* (arch/i386/kernel/cpu/cpufreq/acpi-cpufreq.c)
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*
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* Copyright (C) 2005 Intel Corp
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* Venkatesh Pallipadi <venkatesh.pallipadi@intel.com>
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*/
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#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
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#include <linux/kernel.h>
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#include <linux/slab.h>
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#include <linux/module.h>
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#include <linux/init.h>
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#include <linux/cpufreq.h>
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#include <linux/proc_fs.h>
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#include <linux/seq_file.h>
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#include <asm/io.h>
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#include <linux/uaccess.h>
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#include <asm/pal.h>
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#include <linux/acpi.h>
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#include <acpi/processor.h>
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MODULE_AUTHOR("Venkatesh Pallipadi");
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MODULE_DESCRIPTION("ACPI Processor P-States Driver");
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MODULE_LICENSE("GPL");
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struct cpufreq_acpi_io {
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struct acpi_processor_performance acpi_data;
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unsigned int resume;
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};
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struct cpufreq_acpi_req {
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unsigned int cpu;
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unsigned int state;
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};
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static struct cpufreq_acpi_io *acpi_io_data[NR_CPUS];
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static struct cpufreq_driver acpi_cpufreq_driver;
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static int
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processor_set_pstate (
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u32 value)
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{
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s64 retval;
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pr_debug("processor_set_pstate\n");
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retval = ia64_pal_set_pstate((u64)value);
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if (retval) {
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pr_debug("Failed to set freq to 0x%x, with error 0x%lx\n",
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value, retval);
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return -ENODEV;
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}
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return (int)retval;
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}
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static int
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processor_get_pstate (
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u32 *value)
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{
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u64 pstate_index = 0;
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s64 retval;
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pr_debug("processor_get_pstate\n");
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retval = ia64_pal_get_pstate(&pstate_index,
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PAL_GET_PSTATE_TYPE_INSTANT);
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*value = (u32) pstate_index;
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if (retval)
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pr_debug("Failed to get current freq with "
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"error 0x%lx, idx 0x%x\n", retval, *value);
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return (int)retval;
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}
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/* To be used only after data->acpi_data is initialized */
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static unsigned
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extract_clock (
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struct cpufreq_acpi_io *data,
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unsigned value)
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{
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unsigned long i;
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pr_debug("extract_clock\n");
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for (i = 0; i < data->acpi_data.state_count; i++) {
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if (value == data->acpi_data.states[i].status)
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return data->acpi_data.states[i].core_frequency;
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}
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return data->acpi_data.states[i-1].core_frequency;
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}
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static long
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processor_get_freq (
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void *arg)
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{
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struct cpufreq_acpi_req *req = arg;
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unsigned int cpu = req->cpu;
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struct cpufreq_acpi_io *data = acpi_io_data[cpu];
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u32 value;
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int ret;
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pr_debug("processor_get_freq\n");
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if (smp_processor_id() != cpu)
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return -EAGAIN;
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/* processor_get_pstate gets the instantaneous frequency */
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ret = processor_get_pstate(&value);
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if (ret) {
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pr_warn("get performance failed with error %d\n", ret);
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return ret;
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}
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return 1000 * extract_clock(data, value);
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}
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static long
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processor_set_freq (
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void *arg)
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{
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struct cpufreq_acpi_req *req = arg;
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unsigned int cpu = req->cpu;
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struct cpufreq_acpi_io *data = acpi_io_data[cpu];
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int ret, state = req->state;
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u32 value;
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pr_debug("processor_set_freq\n");
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if (smp_processor_id() != cpu)
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return -EAGAIN;
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if (state == data->acpi_data.state) {
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if (unlikely(data->resume)) {
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pr_debug("Called after resume, resetting to P%d\n", state);
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data->resume = 0;
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} else {
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pr_debug("Already at target state (P%d)\n", state);
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return 0;
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}
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}
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pr_debug("Transitioning from P%d to P%d\n",
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data->acpi_data.state, state);
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/*
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* First we write the target state's 'control' value to the
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* control_register.
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*/
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value = (u32) data->acpi_data.states[state].control;
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pr_debug("Transitioning to state: 0x%08x\n", value);
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ret = processor_set_pstate(value);
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if (ret) {
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pr_warn("Transition failed with error %d\n", ret);
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return -ENODEV;
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}
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data->acpi_data.state = state;
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return 0;
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}
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static unsigned int
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acpi_cpufreq_get (
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unsigned int cpu)
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{
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struct cpufreq_acpi_req req;
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long ret;
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req.cpu = cpu;
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ret = work_on_cpu(cpu, processor_get_freq, &req);
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return ret > 0 ? (unsigned int) ret : 0;
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}
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static int
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acpi_cpufreq_target (
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struct cpufreq_policy *policy,
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unsigned int index)
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{
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struct cpufreq_acpi_req req;
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req.cpu = policy->cpu;
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req.state = index;
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return work_on_cpu(req.cpu, processor_set_freq, &req);
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}
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static int
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acpi_cpufreq_cpu_init (
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struct cpufreq_policy *policy)
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{
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unsigned int i;
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unsigned int cpu = policy->cpu;
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struct cpufreq_acpi_io *data;
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unsigned int result = 0;
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struct cpufreq_frequency_table *freq_table;
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pr_debug("acpi_cpufreq_cpu_init\n");
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data = kzalloc(sizeof(*data), GFP_KERNEL);
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if (!data)
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return (-ENOMEM);
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acpi_io_data[cpu] = data;
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result = acpi_processor_register_performance(&data->acpi_data, cpu);
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if (result)
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goto err_free;
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/* capability check */
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if (data->acpi_data.state_count <= 1) {
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pr_debug("No P-States\n");
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result = -ENODEV;
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goto err_unreg;
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}
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if ((data->acpi_data.control_register.space_id !=
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ACPI_ADR_SPACE_FIXED_HARDWARE) ||
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(data->acpi_data.status_register.space_id !=
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ACPI_ADR_SPACE_FIXED_HARDWARE)) {
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pr_debug("Unsupported address space [%d, %d]\n",
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(u32) (data->acpi_data.control_register.space_id),
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(u32) (data->acpi_data.status_register.space_id));
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result = -ENODEV;
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goto err_unreg;
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}
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/* alloc freq_table */
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freq_table = kcalloc(data->acpi_data.state_count + 1,
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sizeof(*freq_table),
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GFP_KERNEL);
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if (!freq_table) {
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result = -ENOMEM;
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goto err_unreg;
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}
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/* detect transition latency */
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policy->cpuinfo.transition_latency = 0;
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for (i=0; i<data->acpi_data.state_count; i++) {
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if ((data->acpi_data.states[i].transition_latency * 1000) >
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policy->cpuinfo.transition_latency) {
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policy->cpuinfo.transition_latency =
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data->acpi_data.states[i].transition_latency * 1000;
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}
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}
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/* table init */
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for (i = 0; i <= data->acpi_data.state_count; i++)
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{
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if (i < data->acpi_data.state_count) {
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freq_table[i].frequency =
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data->acpi_data.states[i].core_frequency * 1000;
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} else {
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freq_table[i].frequency = CPUFREQ_TABLE_END;
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}
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}
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policy->freq_table = freq_table;
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/* notify BIOS that we exist */
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acpi_processor_notify_smm(THIS_MODULE);
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pr_info("CPU%u - ACPI performance management activated\n", cpu);
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for (i = 0; i < data->acpi_data.state_count; i++)
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pr_debug(" %cP%d: %d MHz, %d mW, %d uS, %d uS, 0x%x 0x%x\n",
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(i == data->acpi_data.state?'*':' '), i,
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(u32) data->acpi_data.states[i].core_frequency,
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(u32) data->acpi_data.states[i].power,
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(u32) data->acpi_data.states[i].transition_latency,
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(u32) data->acpi_data.states[i].bus_master_latency,
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(u32) data->acpi_data.states[i].status,
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(u32) data->acpi_data.states[i].control);
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/* the first call to ->target() should result in us actually
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* writing something to the appropriate registers. */
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data->resume = 1;
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return (result);
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err_unreg:
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acpi_processor_unregister_performance(cpu);
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err_free:
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kfree(data);
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acpi_io_data[cpu] = NULL;
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return (result);
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}
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static int
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acpi_cpufreq_cpu_exit (
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struct cpufreq_policy *policy)
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{
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struct cpufreq_acpi_io *data = acpi_io_data[policy->cpu];
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pr_debug("acpi_cpufreq_cpu_exit\n");
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if (data) {
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acpi_io_data[policy->cpu] = NULL;
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acpi_processor_unregister_performance(policy->cpu);
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kfree(policy->freq_table);
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kfree(data);
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}
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return (0);
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}
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static struct cpufreq_driver acpi_cpufreq_driver = {
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.verify = cpufreq_generic_frequency_table_verify,
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.target_index = acpi_cpufreq_target,
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.get = acpi_cpufreq_get,
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.init = acpi_cpufreq_cpu_init,
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.exit = acpi_cpufreq_cpu_exit,
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.name = "acpi-cpufreq",
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.attr = cpufreq_generic_attr,
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};
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static int __init
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acpi_cpufreq_init (void)
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{
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pr_debug("acpi_cpufreq_init\n");
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return cpufreq_register_driver(&acpi_cpufreq_driver);
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}
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static void __exit
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acpi_cpufreq_exit (void)
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{
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pr_debug("acpi_cpufreq_exit\n");
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cpufreq_unregister_driver(&acpi_cpufreq_driver);
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return;
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}
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late_initcall(acpi_cpufreq_init);
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module_exit(acpi_cpufreq_exit);
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