// Copyright (c) 2009 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "base/linux_util.h"
#include <dirent.h>
#include <errno.h>
#include <glib.h>
#include <stdlib.h>
#include <sys/stat.h>
#include <unistd.h>
#include <vector>
#include "base/command_line.h"
#include "base/lock.h"
#include "base/path_service.h"
#include "base/process_util.h"
#include "base/singleton.h"
#include "base/string_util.h"
#include "base/third_party/xdg_user_dirs/xdg_user_dir_lookup.h"
namespace {
class EnvironmentVariableGetterImpl
: public base::EnvironmentVariableGetter {
public:
virtual bool Getenv(const char* variable_name, std::string* result) {
const char* env_value = ::getenv(variable_name);
if (env_value) {
// Note that the variable may be defined but empty.
*result = env_value;
return true;
}
// Some commonly used variable names are uppercase while others
// are lowercase, which is inconsistent. Let's try to be helpful
// and look for a variable name with the reverse case.
char first_char = variable_name[0];
std::string alternate_case_var;
if (first_char >= 'a' && first_char <= 'z')
alternate_case_var = StringToUpperASCII(std::string(variable_name));
else if (first_char >= 'A' && first_char <= 'Z')
alternate_case_var = StringToLowerASCII(std::string(variable_name));
else
return false;
env_value = ::getenv(alternate_case_var.c_str());
if (env_value) {
*result = env_value;
return true;
}
return false;
}
};
// Not needed for OS_CHROMEOS.
#if defined(OS_LINUX)
enum LinuxDistroState {
STATE_DID_NOT_CHECK = 0,
STATE_CHECK_STARTED = 1,
STATE_CHECK_FINISHED = 2,
};
// Helper class for GetLinuxDistro().
class LinuxDistroHelper {
public:
// Retrieves the Singleton.
static LinuxDistroHelper* Get() {
return Singleton<LinuxDistroHelper>::get();
}
// The simple state machine goes from:
// STATE_DID_NOT_CHECK -> STATE_CHECK_STARTED -> STATE_CHECK_FINISHED.
LinuxDistroHelper() : state_(STATE_DID_NOT_CHECK) {}
~LinuxDistroHelper() {}
// Retrieve the current state, if we're in STATE_DID_NOT_CHECK,
// we automatically move to STATE_CHECK_STARTED so nobody else will
// do the check.
LinuxDistroState State() {
AutoLock scoped_lock(lock_);
if (STATE_DID_NOT_CHECK == state_) {
state_ = STATE_CHECK_STARTED;
return STATE_DID_NOT_CHECK;
}
return state_;
}
// Indicate the check finished, move to STATE_CHECK_FINISHED.
void CheckFinished() {
AutoLock scoped_lock(lock_);
DCHECK(state_ == STATE_CHECK_STARTED);
state_ = STATE_CHECK_FINISHED;
}
private:
Lock lock_;
LinuxDistroState state_;
};
#endif // if defined(OS_LINUX)
// expected prefix of the target of the /proc/self/fd/%d link for a socket
static const char kSocketLinkPrefix[] = "socket:[";
// Parse a symlink in /proc/pid/fd/$x and return the inode number of the
// socket.
// inode_out: (output) set to the inode number on success
// path: e.g. /proc/1234/fd/5 (must be a UNIX domain socket descriptor)
// log: if true, log messages about failure details
bool ProcPathGetInode(ino_t* inode_out, const char* path, bool log = false) {
DCHECK(inode_out);
DCHECK(path);
char buf[256];
const ssize_t n = readlink(path, buf, sizeof(buf) - 1);
if (n == -1) {
if (log) {
LOG(WARNING) << "Failed to read the inode number for a socket from /proc"
"(" << errno << ")";
}
return false;
}
buf[n] = 0;
if (memcmp(kSocketLinkPrefix, buf, sizeof(kSocketLinkPrefix) - 1)) {
if (log) {
LOG(WARNING) << "The descriptor passed from the crashing process wasn't a"
" UNIX domain socket.";
}
return false;
}
char *endptr;
const unsigned long long int inode_ul =
strtoull(buf + sizeof(kSocketLinkPrefix) - 1, &endptr, 10);
if (*endptr != ']')
return false;
if (inode_ul == ULLONG_MAX) {
if (log) {
LOG(WARNING) << "Failed to parse a socket's inode number: the number was "
"too large. Please report this bug: " << buf;
}
return false;
}
*inode_out = inode_ul;
return true;
}
} // anonymous namespace
namespace base {
uint8_t* BGRAToRGBA(const uint8_t* pixels, int width, int height, int stride) {
if (stride == 0)
stride = width * 4;
uint8_t* new_pixels = static_cast<uint8_t*>(malloc(height * stride));
// We have to copy the pixels and swap from BGRA to RGBA.
for (int i = 0; i < height; ++i) {
for (int j = 0; j < width; ++j) {
int idx = i * stride + j * 4;
new_pixels[idx] = pixels[idx + 2];
new_pixels[idx + 1] = pixels[idx + 1];
new_pixels[idx + 2] = pixels[idx];
new_pixels[idx + 3] = pixels[idx + 3];
}
}
return new_pixels;
}
// We use this static string to hold the Linux distro info. If we
// crash, the crash handler code will send this in the crash dump.
std::string linux_distro =
#if defined(OS_CHROMEOS)
"CrOS";
#else // if defined(OS_LINUX)
"Unknown";
#endif
FilePath GetHomeDir(EnvironmentVariableGetter* env) {
std::string home_dir;
if (env->Getenv("HOME", &home_dir) && !home_dir.empty())
return FilePath(home_dir);
home_dir = g_get_home_dir();
if (!home_dir.empty())
return FilePath(home_dir);
FilePath rv;
if (PathService::Get(base::DIR_TEMP, &rv))
return rv;
// Last resort.
return FilePath("/tmp");
}
std::string GetLinuxDistro() {
#if defined(OS_CHROMEOS)
return linux_distro;
#else // if defined(OS_LINUX)
LinuxDistroHelper* distro_state_singleton = LinuxDistroHelper::Get();
LinuxDistroState state = distro_state_singleton->State();
if (STATE_DID_NOT_CHECK == state) {
// We do this check only once per process. If it fails, there's
// little reason to believe it will work if we attempt to run
// lsb_release again.
std::vector<std::string> argv;
argv.push_back("lsb_release");
argv.push_back("-d");
std::string output;
base::GetAppOutput(CommandLine(argv), &output);
if (output.length() > 0) {
// lsb_release -d should return: Description:<tab>Distro Info
static const std::string field = "Description:\t";
if (output.compare(0, field.length(), field) == 0) {
linux_distro = output.substr(field.length());
TrimWhitespaceASCII(linux_distro, TRIM_ALL, &linux_distro);
}
}
distro_state_singleton->CheckFinished();
return linux_distro;
} else if (STATE_CHECK_STARTED == state) {
// If the distro check above is in progress in some other thread, we're
// not going to wait for the results.
return "Unknown";
} else {
// In STATE_CHECK_FINISHED, no more writing to |linux_distro|.
return linux_distro;
}
#endif
}
FilePath GetXDGDirectory(EnvironmentVariableGetter* env,
const char* env_name, const char* fallback_dir) {
std::string env_value;
if (env->Getenv(env_name, &env_value) && !env_value.empty())
return FilePath(env_value);
return GetHomeDir(env).Append(fallback_dir);
}
FilePath GetXDGUserDirectory(EnvironmentVariableGetter* env,
const char* dir_name, const char* fallback_dir) {
char* xdg_dir = xdg_user_dir_lookup(dir_name);
if (xdg_dir) {
FilePath rv(xdg_dir);
free(xdg_dir);
return rv;
}
return GetHomeDir(env).Append(fallback_dir);
}
// static
EnvironmentVariableGetter* EnvironmentVariableGetter::Create() {
return new EnvironmentVariableGetterImpl();
}
DesktopEnvironment GetDesktopEnvironment(EnvironmentVariableGetter* env) {
std::string desktop_session;
if (env->Getenv("DESKTOP_SESSION", &desktop_session)) {
if (desktop_session == "gnome")
return DESKTOP_ENVIRONMENT_GNOME;
else if (desktop_session == "kde4")
return DESKTOP_ENVIRONMENT_KDE4;
else if (desktop_session == "kde") {
// This may mean KDE4 on newer systems, so we have to check.
std::string dummy;
if (env->Getenv("KDE_SESSION_VERSION", &dummy))
return DESKTOP_ENVIRONMENT_KDE4;
return DESKTOP_ENVIRONMENT_KDE3;
}
}
// Fall back on some older environment variables.
// Useful particularly in the DESKTOP_SESSION=default case.
std::string dummy;
if (env->Getenv("GNOME_DESKTOP_SESSION_ID", &dummy)) {
return DESKTOP_ENVIRONMENT_GNOME;
} else if (env->Getenv("KDE_FULL_SESSION", &dummy)) {
if (env->Getenv("KDE_SESSION_VERSION", &dummy))
return DESKTOP_ENVIRONMENT_KDE4;
return DESKTOP_ENVIRONMENT_KDE3;
}
return DESKTOP_ENVIRONMENT_OTHER;
}
const char* GetDesktopEnvironmentName(DesktopEnvironment env) {
switch (env) {
case DESKTOP_ENVIRONMENT_OTHER:
return NULL;
case DESKTOP_ENVIRONMENT_GNOME:
return "GNOME";
case DESKTOP_ENVIRONMENT_KDE3:
return "KDE3";
case DESKTOP_ENVIRONMENT_KDE4:
return "KDE4";
}
return NULL;
}
const char* GetDesktopEnvironmentName(EnvironmentVariableGetter* env) {
return GetDesktopEnvironmentName(GetDesktopEnvironment(env));
}
bool FileDescriptorGetInode(ino_t* inode_out, int fd) {
DCHECK(inode_out);
struct stat buf;
if (fstat(fd, &buf) < 0)
return false;
if (!S_ISSOCK(buf.st_mode))
return false;
*inode_out = buf.st_ino;
return true;
}
bool FindProcessHoldingSocket(pid_t* pid_out, ino_t socket_inode) {
DCHECK(pid_out);
bool already_found = false;
DIR* proc = opendir("/proc");
if (!proc) {
LOG(WARNING) << "Cannot open /proc";
return false;
}
std::vector<pid_t> pids;
struct dirent* dent;
while ((dent = readdir(proc))) {
char *endptr;
const unsigned long int pid_ul = strtoul(dent->d_name, &endptr, 10);
if (pid_ul == ULONG_MAX || *endptr)
continue;
pids.push_back(pid_ul);
}
closedir(proc);
for (std::vector<pid_t>::const_iterator
i = pids.begin(); i != pids.end(); ++i) {
const pid_t current_pid = *i;
char buf[256];
snprintf(buf, sizeof(buf), "/proc/%d/fd", current_pid);
DIR* fd = opendir(buf);
if (!fd)
continue;
while ((dent = readdir(fd))) {
if (snprintf(buf, sizeof(buf), "/proc/%d/fd/%s", current_pid,
dent->d_name) >= static_cast<int>(sizeof(buf))) {
continue;
}
ino_t fd_inode;
if (ProcPathGetInode(&fd_inode, buf)) {
if (fd_inode == socket_inode) {
if (already_found) {
closedir(fd);
return false;
}
already_found = true;
*pid_out = current_pid;
break;
}
}
}
closedir(fd);
}
return already_found;
}
} // namespace base