#include #include #include #include "ldr_registration.hpp" static Registration::List g_registration_list = {0}; static u64 g_num_registered = 1; Registration::Process *Registration::GetFreeProcess() { unsigned int i; for (i = 0; i < REGISTRATION_LIST_MAX; i++) { if (!g_registration_list.processes[i].in_use) { return &g_registration_list.processes[i]; } } return NULL; } Registration::Process *Registration::GetProcess(u64 index) { unsigned int i; for (i = 0; i < REGISTRATION_LIST_MAX && (!g_registration_list.processes[i].in_use || g_registration_list.processes[i].index != index); i++) { } if (i >= REGISTRATION_LIST_MAX) { return NULL; } return &g_registration_list.processes[i]; } Registration::Process *Registration::GetProcessByProcessId(u64 pid) { unsigned int i; for (i = 0; i < REGISTRATION_LIST_MAX && (!g_registration_list.processes[i].in_use || g_registration_list.processes[i].process_id != pid); i++) { } if (i >= REGISTRATION_LIST_MAX) { return NULL; } return &g_registration_list.processes[i]; } bool Registration::RegisterTidSid(const TidSid *tid_sid, u64 *out_index) { Registration::Process *free_process = GetFreeProcess(); if (free_process == NULL) { return false; } /* Reset the process. */ *free_process = {0}; free_process->tid_sid = *tid_sid; free_process->in_use = true; free_process->index = g_num_registered++; *out_index = free_process->index; return true; } bool Registration::UnregisterIndex(u64 index) { Registration::Process *target_process = GetProcess(index); if (target_process == NULL) { return false; } /* Reset the process. */ *target_process = {0}; return true; } Result Registration::GetRegisteredTidSid(u64 index, Registration::TidSid *out) { Registration::Process *target_process = GetProcess(index); if (target_process == NULL) { return 0x1009; } *out = target_process->tid_sid; return 0; } void Registration::SetProcessIdTidMinAndIs64BitAddressSpace(u64 index, u64 process_id, u64 tid_min, bool is_64_bit_addspace) { Registration::Process *target_process = GetProcess(index); if (target_process == NULL) { return; } target_process->process_id = process_id; target_process->title_id_min = tid_min; target_process->is_64_bit_addspace = is_64_bit_addspace; } void Registration::AddNsoInfo(u64 index, u64 base_address, u64 size, const unsigned char *build_id) { Registration::Process *target_process = GetProcess(index); if (target_process == NULL) { return; } for (unsigned int i = 0; i < NSO_INFO_MAX; i++) { if (!target_process->nso_infos[i].in_use) { target_process->nso_infos[i].info.base_address = base_address; target_process->nso_infos[i].info.size = size; std::copy(build_id, build_id + sizeof(target_process->nso_infos[i].info.build_id), target_process->nso_infos[i].info.build_id); target_process->nso_infos[i].in_use = true; return; } } } Result Registration::AddNrrInfo(u64 index, u64 base_address, u64 size, u64 code_memory_address, u64 loader_address) { Registration::Process *target_process = GetProcess(index); if (target_process == NULL) { /* TODO: panic() */ return 0x7009; } for (unsigned int i = 0; i < NSO_INFO_MAX; i++) { if (!target_process->nrr_infos[i].in_use) { target_process->nrr_infos[i].info.base_address = base_address; target_process->nrr_infos[i].info.size = size; target_process->nrr_infos[i].info.code_memory_address = code_memory_address; target_process->nrr_infos[i].info.loader_address = loader_address; return 0; } } return 0x7009; } Result Registration::GetNsoInfosForProcessId(Registration::NsoInfo *out, u32 max_out, u64 process_id, u32 *num_written) { Registration::Process *target_process = GetProcessByProcessId(process_id); if (target_process == NULL) { return 0x1009; } u32 cur = 0; if (max_out > 0) { for (unsigned int i = 0; i < NSO_INFO_MAX && cur < max_out; i++) { if (target_process->nso_infos[i].in_use) { out[cur++] = target_process->nso_infos[i].info; } } } *num_written = cur; return 0; }