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Jonathan Doman94c94bf2020-10-05 23:25:45 -07001// Copyright (c) 2020 Intel Corporation
2//
3// Licensed under the Apache License, Version 2.0 (the "License");
4// you may not use this file except in compliance with the License.
5// You may obtain a copy of the License at
6//
7// http://www.apache.org/licenses/LICENSE-2.0
8//
9// Unless required by applicable law or agreed to in writing, software
10// distributed under the License is distributed on an "AS IS" BASIS,
11// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12// See the License for the specific language governing permissions and
13// limitations under the License.
14#pragma once
15
Jonathan Doman16a2ced2021-11-01 11:13:22 -070016#include <peci.h>
17
Jonathan Doman94c94bf2020-10-05 23:25:45 -070018#include <boost/asio/io_context.hpp>
19#include <sdbusplus/asio/connection.hpp>
20
Jonathan Doman16a2ced2021-11-01 11:13:22 -070021#include <bitset>
22#include <iostream>
23
Jonathan Doman94c94bf2020-10-05 23:25:45 -070024namespace cpu_info
25{
26namespace sst
27{
28
29/**
Jonathan Doman49ea8302022-05-26 14:29:46 -070030 * Initialize SST subsystem.
31 *
32 * This will schedule work to be done when the host is ready, in order to
33 * retrieve all SST configuration info for all discoverable CPUs, and publish
Jonathan Doman94c94bf2020-10-05 23:25:45 -070034 * the info on new D-Bus objects on the given bus connection.
Jonathan Doman94c94bf2020-10-05 23:25:45 -070035 */
Jonathan Doman49ea8302022-05-26 14:29:46 -070036void init();
Jonathan Doman94c94bf2020-10-05 23:25:45 -070037
Jonathan Doman16a2ced2021-11-01 11:13:22 -070038class PECIError : public std::runtime_error
39{
40 using std::runtime_error::runtime_error;
41};
42
43bool checkPECIStatus(EPECIStatus libStatus, uint8_t completionCode);
44
45constexpr int extendedModel(CPUModel model)
46{
47 return (model >> 16) & 0xF;
48}
49
50/**
51 * Construct a list of indexes of the set bits in the input value.
52 * E.g. fn(0x7A) -> {1,3,4,5,6}
53 *
54 * @param[in] mask Bitmask to convert.
55 *
56 * @return List of bit indexes.
57 */
Jonathan Doman49ea8302022-05-26 14:29:46 -070058std::vector<uint32_t> convertMaskToList(std::bitset<64> mask);
Jonathan Doman16a2ced2021-11-01 11:13:22 -070059
60using TurboEntry = std::tuple<uint32_t, size_t>;
61
62/**
63 * Abstract interface that must be implemented by backends, allowing discovery
64 * and control of a single CPU package.
65 */
66class SSTInterface
67{
68 public:
Patrick Williamsc39d3df2023-05-10 07:51:14 -050069 virtual ~SSTInterface() {}
Jonathan Doman16a2ced2021-11-01 11:13:22 -070070
71 /**
72 * Whether the interface is ready to be used, or we need to wait longer. The
73 * backend may need to wait e.g. for the host BIOS to initialize the
74 * interface.
75 */
76 virtual bool ready() = 0;
77
78 /** Whether the processor supports the control ("set") functions. */
79 virtual bool supportsControl() = 0;
80
81 /** Whether SST-PP is enabled on the processor. */
82 virtual bool ppEnabled() = 0;
83 /** Return the current SST-PP configuration level */
84 virtual unsigned int currentLevel() = 0;
85 /** Return the maximum valid SST-PP configuration level */
Jonathan Domanb4c3bcd2023-03-09 11:41:41 -080086 virtual unsigned int maxLevel() = 0;
Jonathan Doman16a2ced2021-11-01 11:13:22 -070087
88 /**
89 * Whether the given level is supported. The level indices may be
90 * discontinuous, so this function should be used before querying deeper
91 * properties of a level.
92 */
93 virtual bool levelSupported(unsigned int level) = 0;
94 /** Whether SST-BF is supported in a given level. */
95 virtual bool bfSupported(unsigned int level) = 0;
96 /** Whether SST-TF is supported in a given level. */
97 virtual bool tfSupported(unsigned int level) = 0;
98 /** Whether SST-BF is enabled in a given level. */
99 virtual bool bfEnabled(unsigned int level) = 0;
100 /** Whether SST-TF is enabled in a given level. */
101 virtual bool tfEnabled(unsigned int level) = 0;
102 /** Return the package Thermal Design Power in Watts for a given level. */
103 virtual unsigned int tdp(unsigned int level) = 0;
104 /** Return the number of cores enabled in a given level. */
105 virtual unsigned int coreCount(unsigned int level) = 0;
106 /** Return the list of enabled logical core indices for a given level. */
107 virtual std::vector<unsigned int> enabledCoreList(unsigned int level) = 0;
108 /**
109 * Return the list of TurboEntrys which define the SSE turbo profile for a
110 * given level.
111 */
112 virtual std::vector<TurboEntry> sseTurboProfile(unsigned int level) = 0;
113 /** Return the base frequency (P1) for a given level. */
114 virtual unsigned int p1Freq(unsigned int level) = 0;
115 /** Return the maximum single-core frequency (P0) for a given level. */
116 virtual unsigned int p0Freq(unsigned int level) = 0;
117 /**
118 * Return the DTS max or external Prochot temperature in degrees Celsius
119 * for a given level.
120 */
121 virtual unsigned int prochotTemp(unsigned int level) = 0;
122 /**
123 * Return the list of logical core indices which have high priority when
124 * SST-BF is enabled for a given level.
125 */
126 virtual std::vector<unsigned int>
127 bfHighPriorityCoreList(unsigned int level) = 0;
128 /** Return the high priority base frequency for a given level. */
129 virtual unsigned int bfHighPriorityFreq(unsigned int level) = 0;
130 /** Return the low priority base frequency for a given level. */
131 virtual unsigned int bfLowPriorityFreq(unsigned int level) = 0;
132
133 /** Enable or disable SST-BF for the current configuration. */
134 virtual void setBfEnabled(bool enable) = 0;
135 /** Enable or disable SST-TF for the current configuration. */
136 virtual void setTfEnabled(bool enable) = 0;
137 /** Change the current configuration to the given level. */
138 virtual void setCurrentLevel(unsigned int level) = 0;
139};
140
141/**
Jonathan Domanb5d72222024-01-11 14:20:13 -0800142 * Policy for whether the SST interface should wake up an idle CPU to complete
143 * requested operations. Waking should be used sparingly to avoid excess CPU
144 * power draw, so the policy depends on the context.
145 */
146enum WakePolicy
147{
148 /**
149 * If CPU rejects the request due to being in a low-power state, enable
150 * wake-on-PECI on the CPU and retry. Wake-on-PECI is disabled for the CPU
151 * when the SST interface is destroyed.
152 */
153 wakeAllowed,
154
155 /**
156 * If CPU rejects the request due to being in a low-power state, it results
157 * in a PECIError exception.
158 */
159 dontWake
160};
161
162/**
Jonathan Doman16a2ced2021-11-01 11:13:22 -0700163 * BackendProvider represents a function which may create an SSTInterface given
164 * a CPU PECI address, and the CPU Model information. Usually the CPUModel is
165 * sufficient to determine if the backend is supported.
166 * Backend should return nullptr to indicate it doesn't support a given CPU.
167 * The SST upper layer will call the registered backend provider functions in
168 * arbitrary order until one of them returns a non-null pointer.
169 */
170using BackendProvider =
Jonathan Domanb5d72222024-01-11 14:20:13 -0800171 std::function<std::unique_ptr<SSTInterface>(uint8_t, CPUModel, WakePolicy)>;
Jonathan Doman16a2ced2021-11-01 11:13:22 -0700172
173/**
174 * Backends should use 1 instance of the SSTProviderRegistration macro at file
175 * scope to register their provider function. This static struct instance
176 * register the backend before main() is run, and prevents the upper layer from
177 * having to know about which backends exist.
178 */
179#define SSTProviderRegistration(fn) \
180 struct fn##Register \
181 { \
182 fn##Register() \
183 { \
184 std::cerr << "Registering SST Provider " #fn << std::endl; \
185 registerBackend(fn); \
186 } \
187 } fn##Instance;
188void registerBackend(BackendProvider);
189
Jonathan Doman94c94bf2020-10-05 23:25:45 -0700190} // namespace sst
191} // namespace cpu_info