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Atmosphere/libraries/libstratosphere/source/erpt/srv/erpt_srv_context.cpp

138 lines
6.5 KiB
C++

/*
* Copyright (c) Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <stratosphere.hpp>
#include "erpt_srv_context.hpp"
#include "erpt_srv_cipher.hpp"
#include "erpt_srv_context_record.hpp"
#include "erpt_srv_report.hpp"
namespace ams::erpt::srv {
namespace {
using ContextList = util::IntrusiveListBaseTraits<Context>::ListType;
constinit ContextList g_category_list;
}
Context::Context(CategoryId cat, u32 max_records) : m_category(cat), m_max_record_count(max_records), m_record_count(0) {
g_category_list.push_front(*this);
}
Context::~Context() {
g_category_list.erase(g_category_list.iterator_to(*this));
}
Result Context::AddCategoryToReport(Report *report) {
R_SUCCEED_IF(m_record_list.empty());
for (auto it = m_record_list.begin(); it != m_record_list.end(); it++) {
for (u32 i = 0; i < it->m_ctx.field_count; i++) {
auto *field = std::addressof(it->m_ctx.fields[i]);
u8 *arr_buf = it->m_ctx.array_buffer;
switch (field->type) {
case FieldType_Bool: R_TRY(Cipher::AddField(report, field->id, field->value_bool)); break;
case FieldType_NumericU8: R_TRY(Cipher::AddField(report, field->id, field->value_u8)); break;
case FieldType_NumericU16: R_TRY(Cipher::AddField(report, field->id, field->value_u16)); break;
case FieldType_NumericU32: R_TRY(Cipher::AddField(report, field->id, field->value_u32)); break;
case FieldType_NumericU64: R_TRY(Cipher::AddField(report, field->id, field->value_u64)); break;
case FieldType_NumericI8: R_TRY(Cipher::AddField(report, field->id, field->value_i8)); break;
case FieldType_NumericI16: R_TRY(Cipher::AddField(report, field->id, field->value_i16)); break;
case FieldType_NumericI32: R_TRY(Cipher::AddField(report, field->id, field->value_i32)); break;
case FieldType_NumericI64: R_TRY(Cipher::AddField(report, field->id, field->value_i64)); break;
case FieldType_String: R_TRY(Cipher::AddField(report, field->id, reinterpret_cast<char *>(arr_buf + field->value_array.start_idx), field->value_array.size / sizeof(char))); break;
case FieldType_U8Array: R_TRY(Cipher::AddField(report, field->id, reinterpret_cast< u8 *>(arr_buf + field->value_array.start_idx), field->value_array.size / sizeof(u8))); break;
case FieldType_U32Array: R_TRY(Cipher::AddField(report, field->id, reinterpret_cast< u32 *>(arr_buf + field->value_array.start_idx), field->value_array.size / sizeof(u32))); break;
case FieldType_U64Array: R_TRY(Cipher::AddField(report, field->id, reinterpret_cast< u64 *>(arr_buf + field->value_array.start_idx), field->value_array.size / sizeof(u64))); break;
case FieldType_I8Array: R_TRY(Cipher::AddField(report, field->id, reinterpret_cast< s8 *>(arr_buf + field->value_array.start_idx), field->value_array.size / sizeof(s8))); break;
case FieldType_I32Array: R_TRY(Cipher::AddField(report, field->id, reinterpret_cast< s32 *>(arr_buf + field->value_array.start_idx), field->value_array.size / sizeof(s32))); break;
case FieldType_I64Array: R_TRY(Cipher::AddField(report, field->id, reinterpret_cast< s64 *>(arr_buf + field->value_array.start_idx), field->value_array.size / sizeof(s64))); break;
default: R_THROW(erpt::ResultInvalidArgument());
}
}
}
R_SUCCEED();
}
Result Context::AddContextToCategory(const ContextEntry *entry, const u8 *data, u32 data_size) {
auto record = std::make_unique<ContextRecord>();
R_UNLESS(record != nullptr, erpt::ResultOutOfMemory());
R_TRY(record->Initialize(entry, data, data_size));
this->AddContextRecordToCategory(std::move(record));
R_SUCCEED();
}
Result Context::AddContextRecordToCategory(std::unique_ptr<ContextRecord> record) {
if (m_record_count < m_max_record_count) {
m_record_list.push_front(*record.release());
m_record_count++;
} else {
ContextRecord *back = std::addressof(m_record_list.back());
m_record_list.pop_back();
m_record_list.push_front(*record.release());
delete back;
}
R_SUCCEED();
}
Result Context::SubmitContext(const ContextEntry *entry, const u8 *data, u32 data_size) {
auto it = util::range::find_if(g_category_list, [&](const Context &cur) {
return cur.m_category == entry->category;
});
R_UNLESS(it != g_category_list.end(), erpt::ResultCategoryNotFound());
R_RETURN(it->AddContextToCategory(entry, data, data_size));
}
Result Context::SubmitContextRecord(std::unique_ptr<ContextRecord> record) {
auto it = util::range::find_if(g_category_list, [&](const Context &cur) {
return cur.m_category == record->m_ctx.category;
});
R_UNLESS(it != g_category_list.end(), erpt::ResultCategoryNotFound());
R_RETURN(it->AddContextRecordToCategory(std::move(record)));
}
Result Context::WriteContextsToReport(Report *report) {
R_TRY(report->Open(ReportOpenType_Create));
R_TRY(Cipher::Begin(report, ContextRecord::GetRecordCount()));
for (auto it = g_category_list.begin(); it != g_category_list.end(); it++) {
R_TRY(it->AddCategoryToReport(report));
}
Cipher::End(report);
report->Close();
R_SUCCEED();
}
Result Context::ClearContext(CategoryId cat) {
/* Make an empty record for the category. */
auto record = std::make_unique<ContextRecord>(cat);
R_UNLESS(record != nullptr, erpt::ResultOutOfMemory());
/* Submit the context record. */
R_RETURN(SubmitContextRecord(std::move(record)));
}
}