//===-- MachVMMemory.cpp ----------------------------------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // Created by Greg Clayton on 6/26/07. // //===----------------------------------------------------------------------===// #include "MachVMMemory.h" #include "DNBLog.h" #include "MachVMRegion.h" #include #include #include #include #if defined(WITH_FBS) || defined(WITH_BKS) extern "C" { #import } #endif static const vm_size_t kInvalidPageSize = ~0; MachVMMemory::MachVMMemory() : m_page_size(kInvalidPageSize), m_err(0) {} MachVMMemory::~MachVMMemory() {} nub_size_t MachVMMemory::PageSize(task_t task) { if (m_page_size == kInvalidPageSize) { #if defined(TASK_VM_INFO) && TASK_VM_INFO >= 22 if (task != TASK_NULL) { kern_return_t kr; mach_msg_type_number_t info_count = TASK_VM_INFO_COUNT; task_vm_info_data_t vm_info; kr = task_info(task, TASK_VM_INFO, (task_info_t)&vm_info, &info_count); if (kr == KERN_SUCCESS) { DNBLogThreadedIf( LOG_TASK, "MachVMMemory::PageSize task_info returned page size of 0x%x", (int)vm_info.page_size); m_page_size = vm_info.page_size; return m_page_size; } else { DNBLogThreadedIf(LOG_TASK, "MachVMMemory::PageSize task_info call " "failed to get page size, TASK_VM_INFO %d, " "TASK_VM_INFO_COUNT %d, kern return %d", TASK_VM_INFO, TASK_VM_INFO_COUNT, kr); } } #endif m_err = ::host_page_size(::mach_host_self(), &m_page_size); if (m_err.Fail()) m_page_size = 0; } return m_page_size; } nub_size_t MachVMMemory::MaxBytesLeftInPage(task_t task, nub_addr_t addr, nub_size_t count) { const nub_size_t page_size = PageSize(task); if (page_size > 0) { nub_size_t page_offset = (addr % page_size); nub_size_t bytes_left_in_page = page_size - page_offset; if (count > bytes_left_in_page) count = bytes_left_in_page; } return count; } nub_bool_t MachVMMemory::GetMemoryRegionInfo(task_t task, nub_addr_t address, DNBRegionInfo *region_info) { MachVMRegion vmRegion(task); if (vmRegion.GetRegionForAddress(address)) { region_info->addr = vmRegion.StartAddress(); region_info->size = vmRegion.GetByteSize(); region_info->permissions = vmRegion.GetDNBPermissions(); } else { region_info->addr = address; region_info->size = 0; if (vmRegion.GetError().Success()) { // vmRegion.GetRegionForAddress() return false, indicating that "address" // wasn't in a valid region, but the "vmRegion" info was successfully // read from the task which means the info describes the next valid // region from which we can infer the size of this invalid region mach_vm_address_t start_addr = vmRegion.StartAddress(); if (address < start_addr) region_info->size = start_addr - address; } // If we can't get any info about the size from the next region it means // we asked about an address that was past all mappings, so the size // of this region will take up all remaining address space. if (region_info->size == 0) region_info->size = INVALID_NUB_ADDRESS - region_info->addr; // Not readable, writeable or executable region_info->permissions = 0; } return true; } static uint64_t GetPhysicalMemory() { // This doesn't change often at all. No need to poll each time. static uint64_t physical_memory = 0; static bool calculated = false; if (calculated) return physical_memory; size_t len = sizeof(physical_memory); sysctlbyname("hw.memsize", &physical_memory, &len, NULL, 0); calculated = true; return physical_memory; } nub_bool_t MachVMMemory::GetMemoryProfile( DNBProfileDataScanType scanType, task_t task, struct task_basic_info ti, cpu_type_t cputype, nub_process_t pid, vm_statistics64_data_t &vminfo, uint64_t &physical_memory, uint64_t &anonymous, uint64_t &phys_footprint, uint64_t &memory_cap) { if (scanType & eProfileHostMemory) physical_memory = GetPhysicalMemory(); if (scanType & eProfileMemory) { static mach_port_t localHost = mach_host_self(); mach_msg_type_number_t count = HOST_VM_INFO64_COUNT; host_statistics64(localHost, HOST_VM_INFO64, (host_info64_t)&vminfo, &count); kern_return_t kr; mach_msg_type_number_t info_count; task_vm_info_data_t vm_info; info_count = TASK_VM_INFO_COUNT; kr = task_info(task, TASK_VM_INFO_PURGEABLE, (task_info_t)&vm_info, &info_count); if (kr == KERN_SUCCESS) { if (scanType & eProfileMemoryAnonymous) { anonymous = vm_info.internal + vm_info.compressed - vm_info.purgeable_volatile_pmap; } phys_footprint = vm_info.phys_footprint; } } #if defined(WITH_FBS) || defined(WITH_BKS) if (scanType & eProfileMemoryCap) { memorystatus_memlimit_properties_t memlimit_properties; memset(&memlimit_properties, 0, sizeof(memlimit_properties)); if (memorystatus_control(MEMORYSTATUS_CMD_GET_MEMLIMIT_PROPERTIES, pid, 0, &memlimit_properties, sizeof(memlimit_properties)) == 0) { memory_cap = memlimit_properties.memlimit_active; } } #endif return true; } nub_size_t MachVMMemory::Read(task_t task, nub_addr_t address, void *data, nub_size_t data_count) { if (data == NULL || data_count == 0) return 0; nub_size_t total_bytes_read = 0; nub_addr_t curr_addr = address; uint8_t *curr_data = (uint8_t *)data; while (total_bytes_read < data_count) { mach_vm_size_t curr_size = MaxBytesLeftInPage(task, curr_addr, data_count - total_bytes_read); mach_msg_type_number_t curr_bytes_read = 0; vm_offset_t vm_memory = 0; m_err = ::mach_vm_read(task, curr_addr, curr_size, &vm_memory, &curr_bytes_read); if (DNBLogCheckLogBit(LOG_MEMORY)) m_err.LogThreaded("::mach_vm_read ( task = 0x%4.4x, addr = 0x%8.8llx, " "size = %llu, data => %8.8p, dataCnt => %i )", task, (uint64_t)curr_addr, (uint64_t)curr_size, vm_memory, curr_bytes_read); if (m_err.Success()) { if (curr_bytes_read != curr_size) { if (DNBLogCheckLogBit(LOG_MEMORY)) m_err.LogThreaded( "::mach_vm_read ( task = 0x%4.4x, addr = 0x%8.8llx, size = %llu, " "data => %8.8p, dataCnt=>%i ) only read %u of %llu bytes", task, (uint64_t)curr_addr, (uint64_t)curr_size, vm_memory, curr_bytes_read, curr_bytes_read, (uint64_t)curr_size); } ::memcpy(curr_data, (void *)vm_memory, curr_bytes_read); ::vm_deallocate(mach_task_self(), vm_memory, curr_bytes_read); total_bytes_read += curr_bytes_read; curr_addr += curr_bytes_read; curr_data += curr_bytes_read; } else { break; } } return total_bytes_read; } nub_size_t MachVMMemory::Write(task_t task, nub_addr_t address, const void *data, nub_size_t data_count) { MachVMRegion vmRegion(task); nub_size_t total_bytes_written = 0; nub_addr_t curr_addr = address; const uint8_t *curr_data = (const uint8_t *)data; while (total_bytes_written < data_count) { if (vmRegion.GetRegionForAddress(curr_addr)) { mach_vm_size_t curr_data_count = data_count - total_bytes_written; mach_vm_size_t region_bytes_left = vmRegion.BytesRemaining(curr_addr); if (region_bytes_left == 0) { break; } if (curr_data_count > region_bytes_left) curr_data_count = region_bytes_left; if (vmRegion.SetProtections(curr_addr, curr_data_count, VM_PROT_READ | VM_PROT_WRITE)) { nub_size_t bytes_written = WriteRegion(task, curr_addr, curr_data, curr_data_count); if (bytes_written <= 0) { // Status should have already be posted by WriteRegion... break; } else { total_bytes_written += bytes_written; curr_addr += bytes_written; curr_data += bytes_written; } } else { DNBLogThreadedIf( LOG_MEMORY_PROTECTIONS, "Failed to set read/write protections on " "region for address: [0x%8.8llx-0x%8.8llx)", (uint64_t)curr_addr, (uint64_t)(curr_addr + curr_data_count)); break; } } else { DNBLogThreadedIf(LOG_MEMORY_PROTECTIONS, "Failed to get region for address: 0x%8.8llx", (uint64_t)address); break; } } return total_bytes_written; } nub_size_t MachVMMemory::WriteRegion(task_t task, const nub_addr_t address, const void *data, const nub_size_t data_count) { if (data == NULL || data_count == 0) return 0; nub_size_t total_bytes_written = 0; nub_addr_t curr_addr = address; const uint8_t *curr_data = (const uint8_t *)data; while (total_bytes_written < data_count) { mach_msg_type_number_t curr_data_count = static_cast(MaxBytesLeftInPage( task, curr_addr, data_count - total_bytes_written)); m_err = ::mach_vm_write(task, curr_addr, (pointer_t)curr_data, curr_data_count); if (DNBLogCheckLogBit(LOG_MEMORY) || m_err.Fail()) m_err.LogThreaded("::mach_vm_write ( task = 0x%4.4x, addr = 0x%8.8llx, " "data = %8.8p, dataCnt = %u )", task, (uint64_t)curr_addr, curr_data, curr_data_count); #if !defined(__i386__) && !defined(__x86_64__) vm_machine_attribute_val_t mattr_value = MATTR_VAL_CACHE_FLUSH; m_err = ::vm_machine_attribute(task, curr_addr, curr_data_count, MATTR_CACHE, &mattr_value); if (DNBLogCheckLogBit(LOG_MEMORY) || m_err.Fail()) m_err.LogThreaded("::vm_machine_attribute ( task = 0x%4.4x, addr = " "0x%8.8llx, size = %u, attr = MATTR_CACHE, mattr_value " "=> MATTR_VAL_CACHE_FLUSH )", task, (uint64_t)curr_addr, curr_data_count); #endif if (m_err.Success()) { total_bytes_written += curr_data_count; curr_addr += curr_data_count; curr_data += curr_data_count; } else { break; } } return total_bytes_written; }