diff options
Diffstat (limited to 'profiling/common/src')
| -rw-r--r-- | profiling/common/src/CMakeLists.txt | 1 | ||||
| -rw-r--r-- | profiling/common/src/CommonProfilingUtils.cpp | 241 | ||||
| -rw-r--r-- | profiling/common/src/CounterDirectory.cpp | 546 |
3 files changed, 787 insertions, 1 deletions
diff --git a/profiling/common/src/CMakeLists.txt b/profiling/common/src/CMakeLists.txt index e02c785581..264902c0dc 100644 --- a/profiling/common/src/CMakeLists.txt +++ b/profiling/common/src/CMakeLists.txt @@ -10,6 +10,7 @@ if(BUILD_TIMELINE_DECODER) CommandHandlerKey.cpp CommandHandlerRegistry.cpp CommonProfilingUtils.cpp + CounterDirectory.cpp LabelsAndEventClasses.cpp Logging.cpp NetworkSockets.cpp diff --git a/profiling/common/src/CommonProfilingUtils.cpp b/profiling/common/src/CommonProfilingUtils.cpp index fe98e0aaa9..01bc461dd2 100644 --- a/profiling/common/src/CommonProfilingUtils.cpp +++ b/profiling/common/src/CommonProfilingUtils.cpp @@ -5,7 +5,10 @@ #include <common/include/Assert.hpp> #include <common/include/CommonProfilingUtils.hpp> +#include <common/include/ProfilingException.hpp> +#include <iostream> +#include <limits> #include <sstream> namespace arm @@ -140,6 +143,242 @@ std::string CentreAlignFormatting(const std::string& stringToPass, const int spa return outputStream.str(); } +void PrintDeviceDetails(const std::pair<const unsigned short, std::unique_ptr<Device>>& devicePair) +{ + std::string body; + + body.append(CentreAlignFormatting(devicePair.second->m_Name, 20)); + body.append(" | "); + body.append(CentreAlignFormatting(std::to_string(devicePair.first), 13)); + body.append(" | "); + body.append(CentreAlignFormatting(std::to_string(devicePair.second->m_Cores), 10)); + body.append("\n"); + + std::cout << std::string(body.size(), '-') << "\n"; + std::cout<< body; +} + +void PrintCounterSetDetails(const std::pair<const unsigned short, std::unique_ptr<CounterSet>>& counterSetPair) +{ + std::string body; + + body.append(CentreAlignFormatting(counterSetPair.second->m_Name, 20)); + body.append(" | "); + body.append(CentreAlignFormatting(std::to_string(counterSetPair.first), 13)); + body.append(" | "); + body.append(CentreAlignFormatting(std::to_string(counterSetPair.second->m_Count), 10)); + body.append("\n"); + + std::cout << std::string(body.size(), '-') << "\n"; + + std::cout<< body; +} + +void PrintCounterDetails(std::shared_ptr<Counter>& counter) +{ + std::string body; + + body.append(CentreAlignFormatting(counter->m_Name, 20)); + body.append(" | "); + body.append(CentreAlignFormatting(counter->m_Description, 50)); + body.append(" | "); + body.append(CentreAlignFormatting(counter->m_Units, 14)); + body.append(" | "); + body.append(CentreAlignFormatting(std::to_string(counter->m_Uid), 6)); + body.append(" | "); + body.append(CentreAlignFormatting(std::to_string(counter->m_MaxCounterUid), 10)); + body.append(" | "); + body.append(CentreAlignFormatting(std::to_string(counter->m_Class), 8)); + body.append(" | "); + body.append(CentreAlignFormatting(std::to_string(counter->m_Interpolation), 14)); + body.append(" | "); + body.append(CentreAlignFormatting(std::to_string(counter->m_Multiplier), 20)); + body.append(" | "); + body.append(CentreAlignFormatting(std::to_string(counter->m_CounterSetUid), 16)); + body.append(" | "); + body.append(CentreAlignFormatting(std::to_string(counter->m_DeviceUid), 14)); + + body.append("\n"); + + std::cout << std::string(body.size(), '-') << "\n"; + + std::cout << body; +} + +void PrintCategoryDetails(const std::unique_ptr<Category>& category, + std::unordered_map<unsigned short, std::shared_ptr<Counter>> counterMap) +{ + std::string categoryBody; + std::string categoryHeader; + + categoryHeader.append(CentreAlignFormatting("Name", 20)); + categoryHeader.append(" | "); + categoryHeader.append(CentreAlignFormatting("Event Count", 14)); + categoryHeader.append("\n"); + + categoryBody.append(CentreAlignFormatting(category->m_Name, 20)); + categoryBody.append(" | "); + categoryBody.append(CentreAlignFormatting(std::to_string(category->m_Counters.size()), 14)); + + std::cout << "\n" << "\n"; + std::cout << CentreAlignFormatting("CATEGORY", static_cast<int>(categoryHeader.size())); + std::cout << "\n"; + std::cout << std::string(categoryHeader.size(), '=') << "\n"; + + std::cout << categoryHeader; + + std::cout << std::string(categoryBody.size(), '-') << "\n"; + + std::cout << categoryBody; + + std::string counterHeader; + + counterHeader.append(CentreAlignFormatting("Counter Name", 20)); + counterHeader.append(" | "); + counterHeader.append(CentreAlignFormatting("Description", 50)); + counterHeader.append(" | "); + counterHeader.append(CentreAlignFormatting("Units", 14)); + counterHeader.append(" | "); + counterHeader.append(CentreAlignFormatting("UID", 6)); + counterHeader.append(" | "); + counterHeader.append(CentreAlignFormatting("Max UID", 10)); + counterHeader.append(" | "); + counterHeader.append(CentreAlignFormatting("Class", 8)); + counterHeader.append(" | "); + counterHeader.append(CentreAlignFormatting("Interpolation", 14)); + counterHeader.append(" | "); + counterHeader.append(CentreAlignFormatting("Multiplier", 20)); + counterHeader.append(" | "); + counterHeader.append(CentreAlignFormatting("Counter set UID", 16)); + counterHeader.append(" | "); + counterHeader.append(CentreAlignFormatting("Device UID", 14)); + counterHeader.append("\n"); + + std::cout << "\n" << "\n"; + std::cout << CentreAlignFormatting("EVENTS IN CATEGORY: " + category->m_Name, + static_cast<int>(counterHeader.size())); + std::cout << "\n"; + std::cout << std::string(counterHeader.size(), '=') << "\n"; + std::cout << counterHeader; + for (auto& it: category->m_Counters) { + auto search = counterMap.find(it); + if(search != counterMap.end()) { + PrintCounterDetails(search->second); + } + } +} + +void PrintCounterDirectory(ICounterDirectory& counterDirectory) +{ + std::string devicesHeader; + + devicesHeader.append(CentreAlignFormatting("Device name", 20)); + devicesHeader.append(" | "); + devicesHeader.append(CentreAlignFormatting("UID", 13)); + devicesHeader.append(" | "); + devicesHeader.append(CentreAlignFormatting("Cores", 10)); + devicesHeader.append("\n"); + + std::cout << "\n" << "\n"; + std::cout << CentreAlignFormatting("DEVICES", static_cast<int>(devicesHeader.size())); + std::cout << "\n"; + std::cout << std::string(devicesHeader.size(), '=') << "\n"; + std::cout << devicesHeader; + for (auto& it: counterDirectory.GetDevices()) { + PrintDeviceDetails(it); + } + + std::string counterSetHeader; + + counterSetHeader.append(CentreAlignFormatting("Counter set name", 20)); + counterSetHeader.append(" | "); + counterSetHeader.append(CentreAlignFormatting("UID", 13)); + counterSetHeader.append(" | "); + counterSetHeader.append(CentreAlignFormatting("Count", 10)); + counterSetHeader.append("\n"); + + std::cout << "\n" << "\n"; + std::cout << CentreAlignFormatting("COUNTER SETS", static_cast<int>(counterSetHeader.size())); + std::cout << "\n"; + std::cout << std::string(counterSetHeader.size(), '=') << "\n"; + + std::cout << counterSetHeader; + + for (auto& it: counterDirectory.GetCounterSets()) { + PrintCounterSetDetails(it); + } + + auto counters = counterDirectory.GetCounters(); + for (auto& it: counterDirectory.GetCategories()) { + PrintCategoryDetails(it, counters); + } + std::cout << "\n"; +} + +namespace +{ + +void ThrowIfCantGenerateNextUid(uint16_t uid, uint16_t cores = 0) +{ + // Check that it is possible to generate the next UID without causing an overflow + switch (cores) + { + case 0: + case 1: + // Number of cores not specified or set to 1 (a value of zero indicates the device is not capable of + // running multiple parallel workloads and will not provide multiple streams of data for each event) + if (uid == std::numeric_limits<uint16_t>::max()) + { + throw arm::pipe::ProfilingException("Generating the next UID for profiling would result in an overflow"); + } + break; + default: // cores > 1 + // Multiple cores available, as max_counter_uid has to be set to: counter_uid + cores - 1, the maximum + // allowed value for a counter UID is consequently: uint16_t_max - cores + 1 + if (uid >= std::numeric_limits<uint16_t>::max() - cores + 1) + { + throw arm::pipe::ProfilingException("Generating the next UID for profiling would result in an overflow"); + } + break; + } +} + +} // Anonymous namespace + +uint16_t GetNextUid(bool peekOnly) +{ + // The UID used for profiling objects and events. The first valid UID is 1, as 0 is a reserved value + static uint16_t uid = 1; + + // Check that it is possible to generate the next UID without causing an overflow (throws in case of error) + ThrowIfCantGenerateNextUid(uid); + + if (peekOnly) + { + // Peek only + return uid; + } + else + { + // Get the next UID + return uid++; + } +} + +std::vector<uint16_t> GetNextCounterUids(uint16_t firstUid, uint16_t cores) +{ + // Check that it is possible to generate the next counter UID without causing an overflow (throws in case of error) + ThrowIfCantGenerateNextUid(firstUid, cores); + + // Get the next counter UIDs + size_t counterUidsSize = cores == 0 ? 1 : cores; + std::vector<uint16_t> counterUids(counterUidsSize, 0); + for (size_t i = 0; i < counterUidsSize; i++) + { + counterUids[i] = firstUid++; + } + return counterUids; +} } // namespace pipe -} // namespace arm
\ No newline at end of file +} // namespace arm diff --git a/profiling/common/src/CounterDirectory.cpp b/profiling/common/src/CounterDirectory.cpp new file mode 100644 index 0000000000..f338858498 --- /dev/null +++ b/profiling/common/src/CounterDirectory.cpp @@ -0,0 +1,546 @@ +// +// Copyright © 2017 Arm Ltd and Contributors. All rights reserved. +// SPDX-License-Identifier: MIT +// + +#include <common/include/CounterDirectory.hpp> +#include <common/include/CommonProfilingUtils.hpp> + +#include <common/include/Assert.hpp> +#include <common/include/SwTrace.hpp> + +#include <fmt/format.h> + +namespace arm +{ + +namespace pipe +{ + +const Category* CounterDirectory::RegisterCategory(const std::string& categoryName) +{ + // Check that the given category name is valid + if (categoryName.empty() || + !arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceNameCharPolicy>(categoryName)) + { + throw arm::pipe::InvalidArgumentException("Trying to register a category with an invalid name"); + } + + // Check that the given category is not already registered + if (IsCategoryRegistered(categoryName)) + { + throw arm::pipe::InvalidArgumentException(fmt::format( + "Trying to register a category already registered (\"{}\")", + categoryName)); + } + + // Create the category + CategoryPtr category = std::make_unique<Category>(categoryName); + ARM_PIPE_ASSERT(category); + + // Get the raw category pointer + const Category* categoryPtr = category.get(); + ARM_PIPE_ASSERT(categoryPtr); + + // Register the category + m_Categories.insert(std::move(category)); + + return categoryPtr; +} + +const Device* CounterDirectory::RegisterDevice(const std::string& deviceName, + uint16_t cores, + const arm::pipe::Optional<std::string>& parentCategoryName) +{ + // Check that the given device name is valid + if (deviceName.empty() || + !arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceCharPolicy>(deviceName)) + { + throw arm::pipe::InvalidArgumentException("Trying to register a device with an invalid name"); + } + + // Check that a device with the given name is not already registered + if (IsDeviceRegistered(deviceName)) + { + throw arm::pipe::InvalidArgumentException(fmt::format( + "Trying to register a device already registered (\"{}\")", + deviceName)); + } + + // Check that a category with the given (optional) parent category name is already registered + if (parentCategoryName.has_value()) + { + // Get the (optional) parent category name + const std::string& parentCategoryNameValue = parentCategoryName.value(); + if (parentCategoryNameValue.empty()) + { + throw arm::pipe::InvalidArgumentException( + fmt::format("Trying to connect a device (name: \"{}\") to an invalid " + "parent category (name: \"{}\")", + deviceName, + parentCategoryNameValue)); + } + + // Check that the given parent category is already registered + auto categoryIt = FindCategory(parentCategoryNameValue); + if (categoryIt == m_Categories.end()) + { + throw arm::pipe::InvalidArgumentException( + fmt::format("Trying to connect a device (name: \"{}\") to a parent category that " + "is not registered (name: \"{}\")", + deviceName, + parentCategoryNameValue)); + } + } + + // Get the device UID + uint16_t deviceUid = GetNextUid(); + + // Create the device + DevicePtr device = std::make_unique<Device>(deviceUid, deviceName, cores); + ARM_PIPE_ASSERT(device); + + // Get the raw device pointer + const Device* devicePtr = device.get(); + ARM_PIPE_ASSERT(devicePtr); + + // Register the device + m_Devices.insert(std::make_pair(deviceUid, std::move(device))); + + return devicePtr; +} + +const CounterSet* CounterDirectory::RegisterCounterSet(const std::string& counterSetName, + uint16_t count, + const arm::pipe::Optional<std::string>& parentCategoryName) +{ + // Check that the given counter set name is valid + if (counterSetName.empty() || + !arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceNameCharPolicy>(counterSetName)) + { + throw arm::pipe::InvalidArgumentException("Trying to register a counter set with an invalid name"); + } + + // Check that a counter set with the given name is not already registered + if (IsCounterSetRegistered(counterSetName)) + { + throw arm::pipe::InvalidArgumentException( + fmt::format("Trying to register a counter set already registered (\"{}\")", counterSetName)); + } + + // Peek the next UID, do not get an actual valid UID just now as we don't want to waste a good UID in case + // the registration fails. We'll get a proper one once we're sure that the counter set can be registered + uint16_t counterSetUidPeek = GetNextUid(true); + + // Check that a category with the given (optional) parent category name is already registered + if (parentCategoryName.has_value()) + { + // Get the (optional) parent category name + const std::string& parentCategoryNameValue = parentCategoryName.value(); + if (parentCategoryNameValue.empty()) + { + throw arm::pipe::InvalidArgumentException( + fmt::format("Trying to connect a counter set (UID: {}) to an invalid " + "parent category (name: \"{}\")", + counterSetUidPeek, + parentCategoryNameValue)); + } + + // Check that the given parent category is already registered + auto it = FindCategory(parentCategoryNameValue); + if (it == m_Categories.end()) + { + throw arm::pipe::InvalidArgumentException( + fmt::format("Trying to connect a counter set (UID: {}) to a parent category " + "that is not registered (name: \"{}\")", + counterSetUidPeek, + parentCategoryNameValue)); + } + } + + // Get the counter set UID + uint16_t counterSetUid = GetNextUid(); + ARM_PIPE_ASSERT(counterSetUid == counterSetUidPeek); + + // Create the counter set + CounterSetPtr counterSet = std::make_unique<CounterSet>(counterSetUid, counterSetName, count); + ARM_PIPE_ASSERT(counterSet); + + // Get the raw counter set pointer + const CounterSet* counterSetPtr = counterSet.get(); + ARM_PIPE_ASSERT(counterSetPtr); + + // Register the counter set + m_CounterSets.insert(std::make_pair(counterSetUid, std::move(counterSet))); + + return counterSetPtr; +} + +const Counter* CounterDirectory::RegisterCounter(const std::string& applicationName, + const uint16_t uid, + const std::string& parentCategoryName, + uint16_t counterClass, + uint16_t interpolation, + double multiplier, + const std::string& name, + const std::string& description, + const arm::pipe::Optional<std::string>& units, + const arm::pipe::Optional<uint16_t>& numberOfCores, + const arm::pipe::Optional<uint16_t>& deviceUid, + const arm::pipe::Optional<uint16_t>& counterSetUid) +{ + // Check that the given parent category name is valid + if (parentCategoryName.empty() || + !arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceNameCharPolicy>(parentCategoryName)) + { + throw arm::pipe::InvalidArgumentException("Trying to register a counter with an invalid parent category name"); + } + + // Check that the given class is valid + if (counterClass != 0 && counterClass != 1) + { + throw arm::pipe::InvalidArgumentException("Trying to register a counter with an invalid class"); + } + + // Check that the given interpolation is valid + if (interpolation != 0 && interpolation != 1) + { + throw arm::pipe::InvalidArgumentException("Trying to register a counter with an invalid interpolation"); + } + + // Check that the given multiplier is valid + if (multiplier == .0f) + { + throw arm::pipe::InvalidArgumentException("Trying to register a counter with an invalid multiplier"); + } + + // Check that the given name is valid + if (name.empty() || + !arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceCharPolicy>(name)) + { + throw arm::pipe::InvalidArgumentException("Trying to register a counter with an invalid name"); + } + + // Check that the given description is valid + if (description.empty() || + !arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceCharPolicy>(description)) + { + throw arm::pipe::InvalidArgumentException("Trying to register a counter with an invalid description"); + } + + // Check that the given units are valid + if (units.has_value() + && !arm::pipe::IsValidSwTraceString<arm::pipe::SwTraceNameCharPolicy>(units.value())) + { + throw arm::pipe::InvalidArgumentException("Trying to register a counter with a invalid units"); + } + + // Check that the given parent category is registered + auto categoryIt = FindCategory(parentCategoryName); + if (categoryIt == m_Categories.end()) + { + throw arm::pipe::InvalidArgumentException( + fmt::format("Trying to connect a counter to a category that is not registered (name: \"{}\")", + parentCategoryName)); + } + + // Get the parent category + const CategoryPtr& parentCategory = *categoryIt; + ARM_PIPE_ASSERT(parentCategory); + + // Check that a counter with the given name is not already registered within the parent category + const std::vector<uint16_t>& parentCategoryCounters = parentCategory->m_Counters; + for (uint16_t parentCategoryCounterUid : parentCategoryCounters) + { + const Counter* parentCategoryCounter = GetCounter(parentCategoryCounterUid); + ARM_PIPE_ASSERT(parentCategoryCounter); + + if (parentCategoryCounter->m_Name == name) + { + throw arm::pipe::InvalidArgumentException( + fmt::format("Trying to register a counter to category \"{}\" with a name that " + "is already used within that category (name: \"{}\")", + parentCategoryName, + name)); + } + } + + // Check that a counter set with the given (optional) UID is already registered + uint16_t counterSetUidValue = counterSetUid.has_value() ? counterSetUid.value() : 0; + if (counterSetUidValue > 0) + { + // Check that the (optional) counter set is already registered + if (!IsCounterSetRegistered(counterSetUidValue)) + { + throw InvalidArgumentException( + fmt::format("Trying to connect a counter to a counter set that is " + "not registered (counter set UID: {})", + counterSetUidValue)); + } + } + + // Get the number of cores (this call may throw) + uint16_t deviceUidValue = deviceUid.has_value() ? deviceUid.value() : 0; + uint16_t deviceCores = GetNumberOfCores(numberOfCores, deviceUidValue); + + // Get the counter UIDs and calculate the max counter UID + std::vector<uint16_t> counterUids = GetNextCounterUids(uid, deviceCores); + ARM_PIPE_ASSERT(!counterUids.empty()); + uint16_t maxCounterUid = deviceCores <= 1 ? counterUids.front() : counterUids.back(); + + // Get the counter units + const std::string unitsValue = units.has_value() ? units.value() : ""; + + // Create the counter + CounterPtr counter = std::make_shared<Counter>(applicationName, + counterUids.front(), + maxCounterUid, + counterClass, + interpolation, + multiplier, + name, + description, + unitsValue, + deviceUidValue, + counterSetUidValue); + ARM_PIPE_ASSERT(counter); + + // Get the raw counter pointer + const Counter* counterPtr = counter.get(); + ARM_PIPE_ASSERT(counterPtr); + + // Process multiple counters if necessary + for (uint16_t counterUid : counterUids) + { + // Connect the counter to the parent category + parentCategory->m_Counters.push_back(counterUid); + + // Register the counter + m_Counters.insert(std::make_pair(counterUid, counter)); + } + + return counterPtr; +} + +const Category* CounterDirectory::GetCategory(const std::string& categoryName) const +{ + auto it = FindCategory(categoryName); + if (it == m_Categories.end()) + { + return nullptr; + } + + const Category* category = it->get(); + ARM_PIPE_ASSERT(category); + + return category; +} + +const Device* CounterDirectory::GetDevice(uint16_t deviceUid) const +{ + auto it = FindDevice(deviceUid); + if (it == m_Devices.end()) + { + return nullptr; + } + + const Device* device = it->second.get(); + ARM_PIPE_ASSERT(device); + ARM_PIPE_ASSERT(device->m_Uid == deviceUid); + + return device; +} + +const CounterSet* CounterDirectory::GetCounterSet(uint16_t counterSetUid) const +{ + auto it = FindCounterSet(counterSetUid); + if (it == m_CounterSets.end()) + { + return nullptr; + } + + const CounterSet* counterSet = it->second.get(); + ARM_PIPE_ASSERT(counterSet); + ARM_PIPE_ASSERT(counterSet->m_Uid == counterSetUid); + + return counterSet; +} + +const Counter* CounterDirectory::GetCounter(uint16_t counterUid) const +{ + auto it = FindCounter(counterUid); + if (it == m_Counters.end()) + { + return nullptr; + } + + const Counter* counter = it->second.get(); + ARM_PIPE_ASSERT(counter); + ARM_PIPE_ASSERT(counter->m_Uid <= counterUid); + ARM_PIPE_ASSERT(counter->m_Uid <= counter->m_MaxCounterUid); + + return counter; +} + +bool CounterDirectory::IsCategoryRegistered(const std::string& categoryName) const +{ + auto it = FindCategory(categoryName); + + return it != m_Categories.end(); +} + +bool CounterDirectory::IsDeviceRegistered(uint16_t deviceUid) const +{ + auto it = FindDevice(deviceUid); + + return it != m_Devices.end(); +} + +bool CounterDirectory::IsDeviceRegistered(const std::string& deviceName) const +{ + auto it = FindDevice(deviceName); + + return it != m_Devices.end(); +} + +bool CounterDirectory::IsCounterSetRegistered(uint16_t counterSetUid) const +{ + auto it = FindCounterSet(counterSetUid); + + return it != m_CounterSets.end(); +} + +bool CounterDirectory::IsCounterSetRegistered(const std::string& counterSetName) const +{ + auto it = FindCounterSet(counterSetName); + + return it != m_CounterSets.end(); +} + +bool CounterDirectory::IsCounterRegistered(uint16_t counterUid) const +{ + auto it = FindCounter(counterUid); + + return it != m_Counters.end(); +} + +bool CounterDirectory::IsCounterRegistered(const std::string& counterName) const +{ + auto it = FindCounter(counterName); + + return it != m_Counters.end(); +} + +void CounterDirectory::Clear() +{ + // Clear all the counter directory contents + m_Categories.clear(); + m_Devices.clear(); + m_CounterSets.clear(); + m_Counters.clear(); +} + +CategoriesIt CounterDirectory::FindCategory(const std::string& categoryName) const +{ + return std::find_if(m_Categories.begin(), m_Categories.end(), [&categoryName](const CategoryPtr& category) + { + ARM_PIPE_ASSERT(category); + + return category->m_Name == categoryName; + }); +} + +DevicesIt CounterDirectory::FindDevice(uint16_t deviceUid) const +{ + return m_Devices.find(deviceUid); +} + +DevicesIt CounterDirectory::FindDevice(const std::string& deviceName) const +{ + return std::find_if(m_Devices.begin(), m_Devices.end(), [&deviceName](const auto& pair) + { + ARM_PIPE_ASSERT(pair.second); + ARM_PIPE_ASSERT(pair.second->m_Uid == pair.first); + + return pair.second->m_Name == deviceName; + }); +} + +CounterSetsIt CounterDirectory::FindCounterSet(uint16_t counterSetUid) const +{ + return m_CounterSets.find(counterSetUid); +} + +CounterSetsIt CounterDirectory::FindCounterSet(const std::string& counterSetName) const +{ + return std::find_if(m_CounterSets.begin(), m_CounterSets.end(), [&counterSetName](const auto& pair) + { + ARM_PIPE_ASSERT(pair.second); + ARM_PIPE_ASSERT(pair.second->m_Uid == pair.first); + + return pair.second->m_Name == counterSetName; + }); +} + +CountersIt CounterDirectory::FindCounter(uint16_t counterUid) const +{ + return m_Counters.find(counterUid); +} + +CountersIt CounterDirectory::FindCounter(const std::string& counterName) const +{ + return std::find_if(m_Counters.begin(), m_Counters.end(), [&counterName](const auto& pair) + { + ARM_PIPE_ASSERT(pair.second); + ARM_PIPE_ASSERT(pair.first >= pair.second->m_Uid && pair.first <= pair.second->m_MaxCounterUid); + + return pair.second->m_Name == counterName; + }); +} + +uint16_t CounterDirectory::GetNumberOfCores(const arm::pipe::Optional<uint16_t>& numberOfCores, + uint16_t deviceUid) +{ + // To get the number of cores, apply the following rules: + // + // 1. If numberOfCores is set then take it as the deviceCores value + // 2. If numberOfCores is not set then check to see if this counter is directly associated with a device, + // if so then that devices number of cores is taken as the deviceCores value + // 3. If none of the above holds then set deviceCores to zero + + // 1. If numberOfCores is set then take it as the deviceCores value + if (numberOfCores.has_value()) + { + // Get the number of cores + return numberOfCores.value(); + } + + // 2. If numberOfCores is not set then check to see if this counter is directly associated with a device, + // if so then that devices number of cores is taken as the deviceCores value + if (deviceUid > 0) + { + // Check that the (optional) device is already registered + auto deviceIt = FindDevice(deviceUid); + if (deviceIt == m_Devices.end()) + { + throw arm::pipe::InvalidArgumentException( + fmt::format("Trying to connect a counter to a device that is not registered (device UID {})", + deviceUid)); + } + + // Get the associated device + const DevicePtr& device = deviceIt->second; + ARM_PIPE_ASSERT(device); + + + // Get the number of cores of the associated device + return device->m_Cores; + } + + // 3. If none of the above holds then set deviceCores to zero + return 0; +} + +} // namespace pipe + +} // namespace arm |