bool RecordCommand::DumpKernelAndModuleMmaps() {
KernelMmap kernel_mmap;
- std::vector<ModuleMmap> module_mmaps;
- if (!GetKernelAndModuleMmaps(&kernel_mmap, &module_mmaps)) {
- return false;
- }
+ std::vector<KernelMmap> module_mmaps;
+ GetKernelAndModuleMmaps(&kernel_mmap, &module_mmaps);
+
const perf_event_attr* attr = event_selection_set_.FindEventAttrByType(measured_event_types_[0]);
CHECK(attr != nullptr);
MmapRecord mmap_record = CreateMmapRecord(*attr, true, UINT_MAX, 0, kernel_mmap.start_addr,
- kernel_mmap.len, kernel_mmap.pgoff, kernel_mmap.name);
+ kernel_mmap.len, 0, kernel_mmap.filepath);
if (!ProcessRecord(&mmap_record)) {
return false;
}
for (auto& module_mmap : module_mmaps) {
- std::string filename = module_mmap.filepath;
- if (filename.empty()) {
- filename = "[" + module_mmap.name + "]";
- }
MmapRecord mmap_record = CreateMmapRecord(*attr, true, UINT_MAX, 0, module_mmap.start_addr,
- module_mmap.len, 0, filename);
+ module_mmap.len, 0, module_mmap.filepath);
if (!ProcessRecord(&mmap_record)) {
return false;
}
return false;
}
-static bool FindStartOfKernelSymbolCallback(const KernelSymbol& symbol, uint64_t* start_addr) {
- if (symbol.module == nullptr) {
- *start_addr = symbol.addr;
- return true;
- }
- return false;
-}
-
-static bool FindStartOfKernelSymbol(const std::string& symbol_file, uint64_t* start_addr) {
- return ProcessKernelSymbols(
- symbol_file, std::bind(&FindStartOfKernelSymbolCallback, std::placeholders::_1, start_addr));
-}
-
-static bool FindKernelFunctionSymbolCallback(const KernelSymbol& symbol, const std::string& name,
- uint64_t* addr) {
- if ((symbol.type == 'T' || symbol.type == 'W' || symbol.type == 'A') &&
- symbol.module == nullptr && name == symbol.name) {
- *addr = symbol.addr;
- return true;
- }
- return false;
-}
-
-static bool FindKernelFunctionSymbol(const std::string& symbol_file, const std::string& name,
- uint64_t* addr) {
- return ProcessKernelSymbols(
- symbol_file, std::bind(&FindKernelFunctionSymbolCallback, std::placeholders::_1, name, addr));
-}
-
-std::vector<ModuleMmap> GetLoadedModules() {
- std::vector<ModuleMmap> result;
+static std::vector<KernelMmap> GetLoadedModules() {
+ std::vector<KernelMmap> result;
FILE* fp = fopen("/proc/modules", "re");
if (fp == nullptr) {
// There is no /proc/modules on Android devices, so we don't print error if failed to open it.
char name[reader.MaxLineSize()];
uint64_t addr;
if (sscanf(line, "%s%*lu%*u%*s%*s 0x%" PRIx64, name, &addr) == 2) {
- ModuleMmap map;
+ KernelMmap map;
map.name = name;
map.start_addr = addr;
result.push_back(map);
}
}
-static std::vector<ModuleMmap> GetModulesInUse() {
+static std::vector<KernelMmap> GetModulesInUse() {
// TODO: There is no /proc/modules or /lib/modules on Android, find methods work on it.
- std::vector<ModuleMmap> module_mmaps = GetLoadedModules();
+ std::vector<KernelMmap> module_mmaps = GetLoadedModules();
std::string linux_version = GetLinuxVersion();
std::string module_dirpath = "/lib/modules/" + linux_version + "/kernel";
std::unordered_map<std::string, std::string> module_file_map;
return module_mmaps;
}
-bool GetKernelAndModuleMmaps(KernelMmap* kernel_mmap, std::vector<ModuleMmap>* module_mmaps) {
- if (!FindStartOfKernelSymbol("/proc/kallsyms", &kernel_mmap->start_addr)) {
- LOG(DEBUG) << "call FindStartOfKernelSymbol() failed";
- return false;
- }
- if (!FindKernelFunctionSymbol("/proc/kallsyms", "_text", &kernel_mmap->pgoff)) {
- LOG(DEBUG) << "call FindKernelFunctionSymbol() failed";
- return false;
- }
+void GetKernelAndModuleMmaps(KernelMmap* kernel_mmap, std::vector<KernelMmap>* module_mmaps) {
kernel_mmap->name = DEFAULT_KERNEL_MMAP_NAME;
+ kernel_mmap->start_addr = 0;
+ kernel_mmap->filepath = kernel_mmap->name;
*module_mmaps = GetModulesInUse();
+ for (auto& map : *module_mmaps) {
+ if (map.filepath.empty()) {
+ map.filepath = "[" + map.name + "]";
+ }
+ }
+
if (module_mmaps->size() == 0) {
kernel_mmap->len = std::numeric_limits<unsigned long long>::max() - kernel_mmap->start_addr;
} else {
std::sort(
module_mmaps->begin(), module_mmaps->end(),
- [](const ModuleMmap& m1, const ModuleMmap& m2) { return m1.start_addr < m2.start_addr; });
- CHECK_LE(kernel_mmap->start_addr, (*module_mmaps)[0].start_addr);
+ [](const KernelMmap& m1, const KernelMmap& m2) { return m1.start_addr < m2.start_addr; });
// When not having enough privilege, all addresses are read as 0.
if (kernel_mmap->start_addr == (*module_mmaps)[0].start_addr) {
kernel_mmap->len = 0;
module_mmaps->back().len =
std::numeric_limits<unsigned long long>::max() - module_mmaps->back().start_addr;
}
- return true;
}
static bool ReadThreadNameAndTgid(const std::string& status_file, std::string* comm, pid_t* tgid) {