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clang-p2996/lldb/tools/debugserver/source/MacOSX/MachVMMemory.cpp
Chandler Carruth 2946cd7010 Update the file headers across all of the LLVM projects in the monorepo 
to reflect the new license.

We understand that people may be surprised that we're moving the header
entirely to discuss the new license. We checked this carefully with the
Foundation's lawyer and we believe this is the correct approach.

Essentially, all code in the project is now made available by the LLVM
project under our new license, so you will see that the license headers
include that license only. Some of our contributors have contributed
code under our old license, and accordingly, we have retained a copy of
our old license notice in the top-level files in each project and
repository.

llvm-svn: 351636
2019-01-19 08:50:56 +00:00

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//===-- 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 <dlfcn.h>
#include <mach/mach_vm.h>
#include <mach/shared_region.h>
#include <sys/sysctl.h>
#if defined(WITH_FBS) || defined(WITH_BKS)
extern "C" {
#import <sys/kern_memorystatus.h>
}
#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<mach_msg_type_number_t>(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;
}
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