/** * * \section COPYRIGHT * * Copyright 2013-2021 Software Radio Systems Limited * * By using this file, you agree to the terms and conditions set * forth in the LICENSE file which can be found at the top level of * the distribution. * */ #ifndef SRSENB_PARSER_H #define SRSENB_PARSER_H #include "srsran/asn1/asn1_utils.h" #include #include #include #include #include #include #include #include #include #include #include #include namespace srsenb { using namespace libconfig; class parser { public: class field_itf { public: virtual ~field_itf() = default; virtual int parse(Setting& root) = 0; virtual const char* get_name() = 0; }; template class field_enum_str : public field_itf { public: field_enum_str(const char* name_, T* store_ptr_, const char** value_str_, uint32_t nof_items_, bool* enabled_value_ = NULL) { name = name_; store_ptr = store_ptr_; value_str = value_str_; nof_items = nof_items_; enabled_value = enabled_value_; } const char* get_name() { return name; } int parse(Setting& root) { std::string val; if (root.exists(name)) { if (enabled_value) { *enabled_value = true; } if (root.lookupValue(name, val)) { bool found = false; // find value for (uint32_t i = 0; i < nof_items && !found; i++) { if (!strcmp(value_str[i], val.c_str())) { *store_ptr = (T)i; found = true; } } if (!found) { fprintf(stderr, "Invalid option: %s for field %s\n", val.c_str(), name); fprintf(stderr, "Valid options: %s", value_str[0]); for (uint32_t i = 1; i < nof_items; i++) { fprintf(stderr, ", %s", value_str[i]); } fprintf(stderr, "\n"); return -1; } return 0; } else { return -1; } } else { if (enabled_value) { *enabled_value = false; return 0; } else { return -1; } } } private: const char* name; T* store_ptr; const char** value_str; uint32_t nof_items; bool* enabled_value; }; template class field_enum_num : public field_itf { public: field_enum_num(const char* name_, T* store_ptr_, const S* value_str_, uint32_t nof_items_, bool* enabled_value_ = NULL) { name = name_; store_ptr = store_ptr_; value_str = value_str_; nof_items = nof_items_; enabled_value = enabled_value_; } const char* get_name() { return name; } int parse(Setting& root) { S val; if (root.exists(name)) { if (enabled_value) { *enabled_value = true; } if (parser::lookupValue(root, name, &val)) { bool found = false; // find value for (uint32_t i = 0; i < nof_items && !found; i++) { if (value_str[i] == val) { *store_ptr = (T)i; found = true; } } if (!found) { std::cout << "Invalid option: " << +val << " for field " << name << std::endl; std::cout << "Valid options: "; for (uint32_t i = 0; i < nof_items; i++) { std::cout << +value_str[i] << ", "; } std::cout << std::endl; return -1; } return 0; } else { return -1; } } else { if (enabled_value) { *enabled_value = false; return 0; } else { return -1; } } } private: const char* name; T* store_ptr; const S* value_str; uint32_t nof_items; bool* enabled_value; }; template class field : public field_itf { public: field(const char* name_, T* store_ptr_, bool* enabled_value_ = NULL) { name = name_; store_ptr = store_ptr_; enabled_value = enabled_value_; } const char* get_name() { return name; } int parse(Setting& root) { if (root.exists(name)) { if (enabled_value) { *enabled_value = true; } if (!parser::lookupValue(root, name, store_ptr)) { return -1; } else { return 0; } } else { if (enabled_value) { *enabled_value = false; return 0; } else { return -1; } } } private: const char* name; T* store_ptr; bool* enabled_value; }; class section { public: section(std::string name); ~section(); void set_optional(bool* enabled_value); void add_subsection(section* s); void add_field(field_itf* f); int parse(Setting& root); private: std::string name; bool* enabled_value; std::list sub_sections; std::list fields; }; parser(std::string filename); int parse(); void add_section(section* s); static int parse_section(std::string filename, section* s); static bool lookupValue(Setting& root, const char* name, std::string* val) { return root.lookupValue(name, *val); } static bool lookupValue(Setting& root, const char* name, uint8_t* val) { uint32_t t; bool r = root.lookupValue(name, t); *val = (uint8_t)t; return r; } static bool lookupValue(Setting& root, const char* name, uint16_t* val) { uint32_t t; bool r = root.lookupValue(name, t); *val = (uint16_t)t; return r; } static bool lookupValue(Setting& root, const char* name, uint32_t* val) { uint32_t t; bool r = root.lookupValue(name, t); *val = t; return r; } static bool lookupValue(Setting& root, const char* name, int8_t* val) { int32_t t; bool r = root.lookupValue(name, t); *val = (int8_t)t; return r; } static bool lookupValue(Setting& root, const char* name, int16_t* val) { int32_t t; bool r = root.lookupValue(name, t); *val = (int16_t)t; return r; } static bool lookupValue(Setting& root, const char* name, int32_t* val) { int32_t t; bool r = root.lookupValue(name, t); *val = t; return r; } static bool lookupValue(Setting& root, const char* name, double* val) { double t; bool r = root.lookupValue(name, t); *val = t; return r; } static bool lookupValue(Setting& root, const char* name, float* val) { double t; bool r = root.lookupValue(name, t); *val = t; return r; } static bool lookupValue(Setting& root, const char* name, bool* val) { bool t; bool r = root.lookupValue(name, t); *val = t; return r; } private: std::list sections; std::string filename; }; template struct DefaultFieldParser { int operator()(T& obj, Setting& root) const { obj = (T)root; return 0; } }; // specialization for uint16_t bc Setting does not have overloaded uint16_t operator template <> struct DefaultFieldParser { int operator()(uint16_t& obj, Setting& root) const { obj = (uint32_t)root; return 0; } }; template > int parse_opt_field(T& obj, Setting& root, const char* field_name, const Parser& field_parser = {}, bool* presence_flag = nullptr) { bool exists = root.exists(field_name); if (presence_flag != nullptr) { *presence_flag = exists; } return exists ? field_parser(obj, root[field_name]) : 0; } //! Parse field if it exists. If not, default to "default_val" template > int parse_default_field(T& obj, Setting& root, const char* fieldname, const T& default_val, const Parser& field_parser = {}, bool* presence_flag = nullptr) { bool opt_flag; int ret = parse_opt_field(obj, root, fieldname, field_parser, &opt_flag); if (not opt_flag) { obj = default_val; } if (presence_flag != nullptr) { *presence_flag = opt_flag; } return ret; } //! Parse required field and return error if field isn't specified template > int parse_required_field(T& obj, Setting& root, const char* field_name, const Parser& field_parser = {}) { if (not root.exists(field_name)) { fprintf(stderr, "PARSER ERROR: Field \"%s\" doesn't exist.\n", field_name); return -1; } return field_parser(obj, root[field_name]); } template int parse_bounded_number(T& number, Setting& fieldroot, T num_min, T num_max) { number = (T)fieldroot; if (number < num_min or number > num_max) { std::cout << "Parser Warning: Value of " << fieldroot.getName() << " must be within bound [" << num_min << ", " << num_max << "]\n"; number = (number > num_max) ? num_max : num_min; } return 0; } namespace asn1_parsers { template bool nowhitespace_string_to_enum(EnumType& e, const std::string& s) { std::string s_nows = s; std::transform(s_nows.begin(), s_nows.end(), s_nows.begin(), ::tolower); s_nows.erase(std::remove(s_nows.begin(), s_nows.end(), ' '), s_nows.end()); s_nows.erase(std::remove(s_nows.begin(), s_nows.end(), '-'), s_nows.end()); for (uint32_t i = 0; i < EnumType::nof_types; ++i) { e = (typename EnumType::options)i; std::string s_nows2 = e.to_string(); std::transform(s_nows2.begin(), s_nows2.end(), s_nows2.begin(), ::tolower); s_nows2.erase(std::remove(s_nows2.begin(), s_nows2.end(), ' '), s_nows2.end()); s_nows2.erase(std::remove(s_nows2.begin(), s_nows2.end(), '-'), s_nows2.end()); if (s_nows2 == s_nows) { return true; } } return false; } template int str_to_enum(EnumType& enum_val, Setting& root) { std::string val = root.c_str(); bool found = nowhitespace_string_to_enum(enum_val, val); if (not found) { fprintf(stderr, "PARSER ERROR: Invalid option: \"%s\" for asn1 enum type\n", val.c_str()); fprintf(stderr, "Valid options: \"%s\"", EnumType((typename EnumType::options)0).to_string().c_str()); for (uint32_t i = 1; i < EnumType::nof_types; i++) { fprintf(stderr, ", \"%s\"", EnumType((typename EnumType::options)i).to_string().c_str()); } fprintf(stderr, "\n"); } return found ? 0 : -1; } template int opt_str_to_enum(EnumType& enum_val, bool& presence_flag, Setting& root, const char* name) { return parse_opt_field(enum_val, root, name, str_to_enum, &presence_flag); } template int number_to_enum(EnumType& enum_val, Setting& root) { if (root.isNumber()) { typename EnumType::number_type val = 0; if (root.getType() == Setting::TypeInt64) { val = (long int)root; } else if (root.getType() == Setting::TypeInt) { val = (int)root; } bool found = asn1::number_to_enum(enum_val, val); if (not found) { std::ostringstream ss; ss << val; fprintf(stderr, "Invalid option: %s for enum field \"%s\"\n", ss.str().c_str(), root.getName()); ss.str(""); ss << EnumType((typename EnumType::options)0).to_number(); fprintf(stderr, "Valid options: %s", ss.str().c_str()); for (uint32_t i = 1; i < EnumType::nof_types; i++) { ss.str(""); ss << EnumType((typename EnumType::options)i).to_number(); fprintf(stderr, ", %s", ss.str().c_str()); } fprintf(stderr, "\n"); } return found ? 0 : -1; } else { std::string str_val = root.c_str(); fprintf(stderr, "Expected a number for enum field %s but received a string %s\n", root.getName(), str_val.c_str()); } return -1; } template int opt_number_to_enum(EnumType& enum_val, bool& presence_flag, Setting& root, const char* name) { return parse_opt_field(enum_val, root, name, number_to_enum, &presence_flag); } } // namespace asn1_parsers } // namespace srsenb #endif // PARSER_H