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0f5ca1d1f1
These constants conflict with error codes returned by the MP implementation when something is wrong. In particular, mp_first_cpu() returns MP_SELECT_BSP when running without multiprocessing enabled. Since this is -2, it is interpreted as an error by callers, which expect a positive CPU number for the first CPU. Correct this by using a different range for the pre-defined CPU numbers, above zero and out of the range of possible CPU values. For now it is safe to assume there are no more than 64K CPUs. This fixes the 'mtrr' command when CONFIG_SMP is not enabled. Signed-off-by: Simon Glass <sjg@chromium.org> Reviewed-by: Bin Meng <bmeng.cn@gmail.com>
199 lines
5.7 KiB
C
199 lines
5.7 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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/*
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* Copyright (c) 2015 Google, Inc
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*
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* Taken from coreboot file of the same name
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*/
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#ifndef _X86_MP_H_
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#define _X86_MP_H_
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#include <asm/atomic.h>
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#include <asm/cache.h>
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#include <linux/bitops.h>
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struct udevice;
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enum {
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/*
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* Indicates that the function should run on all CPUs. We use a large
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* number, above the number of real CPUs we expect to find.
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*/
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MP_SELECT_ALL = BIT(16),
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/* Run on boot CPUs */
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MP_SELECT_BSP,
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/* Run on non-boot CPUs */
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MP_SELECT_APS,
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};
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typedef int (*mp_callback_t)(struct udevice *cpu, void *arg);
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/*
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* A mp_flight_record details a sequence of calls for the APs to perform
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* along with the BSP to coordinate sequencing. Each flight record either
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* provides a barrier for each AP before calling the callback or the APs
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* are allowed to perform the callback without waiting. Regardless, each
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* record has the cpus_entered field incremented for each record. When
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* the BSP observes that the cpus_entered matches the number of APs
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* the bsp_call is called with bsp_arg and upon returning releases the
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* barrier allowing the APs to make further progress.
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*
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* Note that ap_call() and bsp_call() can be NULL. In the NULL case the
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* callback will just not be called.
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*
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* @barrier: Ensures that the BSP and AP don't run the flight record at the same
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* time
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* @cpus_entered: Counts the number of APs that have run this record
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* @ap_call: Function for the APs to call
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* @ap_arg: Argument to pass to @ap_call
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* @bsp_call: Function for the BSP to call
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* @bsp_arg: Argument to pass to @bsp_call
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*/
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struct mp_flight_record {
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atomic_t barrier;
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atomic_t cpus_entered;
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mp_callback_t ap_call;
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void *ap_arg;
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mp_callback_t bsp_call;
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void *bsp_arg;
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} __attribute__((aligned(ARCH_DMA_MINALIGN)));
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#define MP_FLIGHT_RECORD(barrier_, ap_func_, ap_arg_, bsp_func_, bsp_arg_) \
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{ \
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.barrier = ATOMIC_INIT(barrier_), \
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.cpus_entered = ATOMIC_INIT(0), \
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.ap_call = ap_func_, \
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.ap_arg = ap_arg_, \
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.bsp_call = bsp_func_, \
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.bsp_arg = bsp_arg_, \
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}
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#define MP_FR_BLOCK_APS(ap_func, ap_arg, bsp_func, bsp_arg) \
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MP_FLIGHT_RECORD(0, ap_func, ap_arg, bsp_func, bsp_arg)
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#define MP_FR_NOBLOCK_APS(ap_func, ap_arg, bsp_func, bsp_arg) \
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MP_FLIGHT_RECORD(1, ap_func, ap_arg, bsp_func, bsp_arg)
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/*
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* mp_init() will set up the SIPI vector and bring up the APs according to
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* mp_params. Each flight record will be executed according to the plan. Note
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* that the MP infrastructure uses SMM default area without saving it. It's
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* up to the chipset or mainboard to either e820 reserve this area or save this
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* region prior to calling mp_init() and restoring it after mp_init returns.
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*
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* At the time mp_init() is called the MTRR MSRs are mirrored into APs then
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* caching is enabled before running the flight plan.
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*
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* The MP init has the following properties:
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* 1. APs are brought up in parallel.
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* 2. The ordering of cpu number and APIC ids is not deterministic.
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* Therefore, one cannot rely on this property or the order of devices in
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* the device tree unless the chipset or mainboard know the APIC ids
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* a priori.
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*
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* mp_init() returns < 0 on error, 0 on success.
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*/
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int mp_init(void);
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/**
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* x86_mp_init() - Set up additional CPUs
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*
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* @returns < 0 on error, 0 on success.
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*/
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int x86_mp_init(void);
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/**
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* mp_run_func() - Function to call on the AP
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*
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* @arg: Argument to pass
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*/
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typedef void (*mp_run_func)(void *arg);
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#if CONFIG_IS_ENABLED(SMP) && !CONFIG_IS_ENABLED(X86_64)
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/**
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* mp_run_on_cpus() - Run a function on one or all CPUs
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*
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* This does not return until all CPUs have completed the work
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*
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* Running on anything other than the boot CPU is only supported if
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* CONFIG_SMP_AP_WORK is enabled
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*
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* @cpu_select: CPU to run on (its dev_seq() value), or MP_SELECT_ALL for
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* all, or MP_SELECT_BSP for BSP
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* @func: Function to run
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* @arg: Argument to pass to the function
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* @return 0 on success, -ve on error
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*/
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int mp_run_on_cpus(int cpu_select, mp_run_func func, void *arg);
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/**
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* mp_park_aps() - Park the APs ready for the OS
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*
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* This halts all CPUs except the main one, ready for the OS to use them
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*
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* @return 0 if OK, -ve on error
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*/
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int mp_park_aps(void);
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/**
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* mp_first_cpu() - Get the first CPU to process, from a selection
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*
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* This is used to iterate through selected CPUs. Call this function first, then
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* call mp_next_cpu() repeatedly (with the same @cpu_select) until it returns
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* -EFBIG.
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*
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* @cpu_select: Selected CPUs (either a CPU number or MP_SELECT_...)
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* @return next CPU number to run on (e.g. 0)
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*/
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int mp_first_cpu(int cpu_select);
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/**
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* mp_next_cpu() - Get the next CPU to process, from a selection
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*
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* This is used to iterate through selected CPUs. After first calling
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* mp_first_cpu() once, call this function repeatedly until it returns -EFBIG.
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*
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* The value of @cpu_select must be the same for all calls and must match the
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* value passed to mp_first_cpu(), otherwise the behaviour is undefined.
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*
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* @cpu_select: Selected CPUs (either a CPU number or MP_SELECT_...)
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* @prev_cpu: Previous value returned by mp_first_cpu()/mp_next_cpu()
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* @return next CPU number to run on (e.g. 0)
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*/
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int mp_next_cpu(int cpu_select, int prev_cpu);
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#else
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static inline int mp_run_on_cpus(int cpu_select, mp_run_func func, void *arg)
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{
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/* There is only one CPU, so just call the function here */
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func(arg);
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return 0;
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}
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static inline int mp_park_aps(void)
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{
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/* No APs to park */
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return 0;
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}
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static inline int mp_first_cpu(int cpu_select)
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{
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/* We cannot run on any APs, nor a selected CPU */
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return cpu_select == MP_SELECT_APS ? -EFBIG : MP_SELECT_BSP;
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}
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static inline int mp_next_cpu(int cpu_select, int prev_cpu)
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{
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/*
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* When MP is not enabled, there is only one CPU and we did it in
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* mp_first_cpu()
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*/
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return -EFBIG;
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}
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#endif
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#endif /* _X86_MP_H_ */
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