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bpfloader: support 'shared' maps and per-map/program selinux context

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allow bpf .o files to specify desired selinux context

Bug: 218408035
Test: TreeHugger
Signed-off-by: Maciej Żenczykowski <maze@google.com>
Change-Id: I9d7449e477c371053a34191a2a9a935ba927d4b3
This commit is contained in:
Maciej Żenczykowski 2022-06-03 08:41:04 -07:00
parent 12bb520707
commit 4181713963
4 changed files with 277 additions and 27 deletions
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29
bpfloader/BpfLoader.cpp
View file

@ -51,8 +51,16 @@
#include "bpf/BpfUtils.h"
using android::base::EndsWith;
using android::bpf::domain;
using std::string;
constexpr unsigned long long kTetheringApexDomainBitmask =
domainToBitmask(domain::tethering) |
domainToBitmask(domain::net_private) |
domainToBitmask(domain::net_shared) |
domainToBitmask(domain::netd_readonly) |
domainToBitmask(domain::netd_shared);
// see b/162057235. For arbitrary program types, the concern is that due to the lack of
// SELinux access controls over BPF program attachpoints, we have no way to control the
// attachment of programs to shared resources (or to detect when a shared resource
@ -64,6 +72,7 @@ constexpr bpf_prog_type kVendorAllowedProgTypes[] = {
struct Location {
const char* const dir;
const char* const prefix;
unsigned long long allowedDomainBitmask;
const bpf_prog_type* allowedProgTypes = nullptr;
size_t allowedProgTypesLength = 0;
};
@ -73,38 +82,45 @@ const Location locations[] = {
{
.dir = "/apex/com.android.tethering/etc/bpf/",
.prefix = "tethering/",
.allowedDomainBitmask = kTetheringApexDomainBitmask,
},
// T+ Tethering mainline module (shared with netd & system server)
// netutils_wrapper (for iptables xt_bpf) has access to programs
{
.dir = "/apex/com.android.tethering/etc/bpf/netd_shared/",
.prefix = "netd_shared/",
.allowedDomainBitmask = kTetheringApexDomainBitmask,
},
// T+ Tethering mainline module (shared with netd & system server)
// netutils_wrapper has no access, netd has read only access
{
.dir = "/apex/com.android.tethering/etc/bpf/netd_readonly/",
.prefix = "netd_readonly/",
.allowedDomainBitmask = kTetheringApexDomainBitmask,
},
// T+ Tethering mainline module (shared with system server)
{
.dir = "/apex/com.android.tethering/etc/bpf/net_shared/",
.prefix = "net_shared/",
.allowedDomainBitmask = kTetheringApexDomainBitmask,
},
// T+ Tethering mainline module (not shared, just network_stack)
{
.dir = "/apex/com.android.tethering/etc/bpf/net_private/",
.prefix = "net_private/",
.allowedDomainBitmask = kTetheringApexDomainBitmask,
},
// Core operating system
{
.dir = "/system/etc/bpf/",
.prefix = "",
.allowedDomainBitmask = domainToBitmask(domain::platform),
},
// Vendor operating system
{
.dir = "/vendor/etc/bpf/",
.prefix = "vendor/",
.allowedDomainBitmask = domainToBitmask(domain::vendor),
.allowedProgTypes = kVendorAllowedProgTypes,
.allowedProgTypesLength = arraysize(kVendorAllowedProgTypes),
},
@ -124,7 +140,9 @@ int loadAllElfObjects(const Location& location) {
progPath += s;
bool critical;
int ret = android::bpf::loadProg(progPath.c_str(), &critical, location.prefix,
int ret = android::bpf::loadProg(progPath.c_str(), &critical,
location.prefix,
location.allowedDomainBitmask,
location.allowedProgTypes,
location.allowedProgTypesLength);
if (ret) {
@ -160,9 +178,16 @@ int main(int argc, char** argv) {
(void)argc;
android::base::InitLogging(argv, &android::base::KernelLogger);
// Load all ELF objects, create programs and maps, and pin them
// Create all the pin subdirectories
// (this must be done first to allow selinux_context and pin_subdir functionality,
// which could otherwise fail with ENOENT during object pinning or renaming,
// due to ordering issues)
for (const auto& location : locations) {
createSysFsBpfSubDir(location.prefix);
}
// Load all ELF objects, create programs and maps, and pin them
for (const auto& location : locations) {
if (loadAllElfObjects(location) != 0) {
ALOGE("=== CRITICAL FAILURE LOADING BPF PROGRAMS FROM %s ===", location.dir);
ALOGE("If this triggers reliably, you're probably missing kernel options or patches.");

2
libbpf_android/BpfLoadTest.cpp
View file

@ -53,7 +53,7 @@ class BpfLoadTest : public TestWithParam<std::string> {
bpf_prog_type kAllowed[] = {
BPF_PROG_TYPE_UNSPEC,
};
EXPECT_EQ(android::bpf::loadProg(progPath.c_str(), &critical, "", kAllowed,
EXPECT_EQ(android::bpf::loadProg(progPath.c_str(), &critical, "", 0, kAllowed,
arraysize(kAllowed)),
-1);

219
libbpf_android/Loader.cpp
View file

@ -30,9 +30,9 @@
#include <sys/wait.h>
#include <unistd.h>
// This is BpfLoader v0.17
// This is BpfLoader v0.18
#define BPFLOADER_VERSION_MAJOR 0u
#define BPFLOADER_VERSION_MINOR 17u
#define BPFLOADER_VERSION_MINOR 18u
#define BPFLOADER_VERSION ((BPFLOADER_VERSION_MAJOR << 16) | BPFLOADER_VERSION_MINOR)
#include "bpf/BpfUtils.h"
@ -73,6 +73,68 @@ using std::vector;
namespace android {
namespace bpf {
constexpr const char* lookupSelinuxContext(const domain d, const char* const unspecified = "") {
switch (d) {
case domain::unspecified: return unspecified;
case domain::platform: return "fs_bpf";
case domain::tethering: return "fs_bpf_tethering";
case domain::net_private: return "fs_bpf_net_private";
case domain::net_shared: return "fs_bpf_net_shared";
case domain::netd_readonly: return "fs_bpf_netd_readonly";
case domain::netd_shared: return "fs_bpf_netd_shared";
case domain::vendor: return "fs_bpf_vendor";
default: return "(unrecognized)";
}
}
domain getDomainFromSelinuxContext(const char s[BPF_SELINUX_CONTEXT_CHAR_ARRAY_SIZE]) {
for (domain d : AllDomains) {
// Not sure how to enforce this at compile time, so abort() bpfloader at boot instead
if (strlen(lookupSelinuxContext(d)) >= BPF_SELINUX_CONTEXT_CHAR_ARRAY_SIZE) abort();
if (!strncmp(s, lookupSelinuxContext(d), BPF_SELINUX_CONTEXT_CHAR_ARRAY_SIZE)) return d;
}
ALOGW("ignoring unrecognized selinux_context '%32s'", s);
// We should return 'unrecognized' here, however: returning unspecified will
// result in the system simply using the default context, which in turn
// will allow future expansion by adding more restrictive selinux types.
// Older bpfloader will simply ignore that, and use the less restrictive default.
// This does mean you CANNOT later add a *less* restrictive type than the default.
//
// Note: we cannot just abort() here as this might be a mainline module shipped optional update
return domain::unspecified;
}
constexpr const char* lookupPinSubdir(const domain d, const char* const unspecified = "") {
switch (d) {
case domain::unspecified: return unspecified;
case domain::platform: return "/";
case domain::tethering: return "tethering/";
case domain::net_private: return "net_private/";
case domain::net_shared: return "net_shared/";
case domain::netd_readonly: return "netd_readonly/";
case domain::netd_shared: return "netd_shared/";
case domain::vendor: return "vendor/";
default: return "(unrecognized)";
}
};
domain getDomainFromPinSubdir(const char s[BPF_PIN_SUBDIR_CHAR_ARRAY_SIZE]) {
for (domain d : AllDomains) {
// Not sure how to enforce this at compile time, so abort() bpfloader at boot instead
if (strlen(lookupPinSubdir(d)) >= BPF_PIN_SUBDIR_CHAR_ARRAY_SIZE) abort();
if (!strncmp(s, lookupPinSubdir(d), BPF_PIN_SUBDIR_CHAR_ARRAY_SIZE)) return d;
}
ALOGE("unrecognized pin_subdir '%32s'", s);
// pin_subdir affects the object's full pathname,
// and thus using the default would change the location and thus our code's ability to find it,
// hence this seems worth treating as a true error condition.
//
// Note: we cannot just abort() here as this might be a mainline module shipped optional update
// However, our callers will treat this as an error, and stop loading the specific .o,
// which will fail bpfloader if the .o is marked critical.
return domain::unrecognized;
}
static string pathToFilename(const string& path, bool noext = false) {
vector<string> spath = android::base::Split(path, "/");
string ret = spath.back();
@ -623,7 +685,8 @@ static bool mapMatchesExpectations(unique_fd& fd, string& mapName, struct bpf_ma
}
static int createMaps(const char* elfPath, ifstream& elfFile, vector<unique_fd>& mapFds,
const char* prefix, size_t sizeOfBpfMapDef) {
const char* prefix, const unsigned long long allowedDomainBitmask,
const size_t sizeOfBpfMapDef) {
int ret;
vector<char> mdData, btfData;
vector<struct bpf_map_def> md;
@ -719,9 +782,35 @@ static int createMaps(const char* elfPath, ifstream& elfFile, vector<unique_fd>&
type = BPF_MAP_TYPE_HASH;
}
// Format of pin location is /sys/fs/bpf/<prefix>map_<filename>_<mapname>
string mapPinLoc =
string(BPF_FS_PATH) + prefix + "map_" + fname + "_" + string(mapNames[i]);
domain selinux_context = getDomainFromSelinuxContext(md[i].selinux_context);
if (specified(selinux_context)) {
if (!inDomainBitmask(selinux_context, allowedDomainBitmask)) {
ALOGE("map %s has invalid selinux_context of %d (allowed bitmask 0x%llx)",
mapNames[i].c_str(), selinux_context, allowedDomainBitmask);
return -EINVAL;
}
ALOGI("map %s selinux_context [%32s] -> %d -> '%s' (%s)", mapNames[i].c_str(),
md[i].selinux_context, selinux_context, lookupSelinuxContext(selinux_context),
lookupPinSubdir(selinux_context));
}
domain pin_subdir = getDomainFromPinSubdir(md[i].pin_subdir);
if (unrecognized(pin_subdir)) return -ENOTDIR;
if (specified(pin_subdir)) {
if (!inDomainBitmask(pin_subdir, allowedDomainBitmask)) {
ALOGE("map %s has invalid pin_subdir of %d (allowed bitmask 0x%llx)",
mapNames[i].c_str(), pin_subdir, allowedDomainBitmask);
return -EINVAL;
}
ALOGI("map %s pin_subdir [%32s] -> %d -> '%s'", mapNames[i].c_str(), md[i].pin_subdir,
pin_subdir, lookupPinSubdir(pin_subdir));
}
// Format of pin location is /sys/fs/bpf/<pin_subdir|prefix>map_<filename>_<mapname>
// except that maps shared across .o's have empty <filename>
// Note: <filename> refers to the extension-less basename of the .o file.
string mapPinLoc = string(BPF_FS_PATH) + lookupPinSubdir(pin_subdir, prefix) + "map_" +
(md[i].shared ? "" : fname) + "_" + mapNames[i];
bool reuse = false;
unique_fd fd;
int saved_errno;
@ -758,12 +847,40 @@ static int createMaps(const char* elfPath, ifstream& elfFile, vector<unique_fd>&
if (!mapMatchesExpectations(fd, mapNames[i], md[i], type)) return -ENOTUNIQ;
if (!reuse) {
ret = bpf_obj_pin(fd, mapPinLoc.c_str());
if (ret) return -errno;
if (specified(selinux_context)) {
string createLoc = string(BPF_FS_PATH) + lookupPinSubdir(selinux_context) +
"tmp_map_" + fname + "_" + mapNames[i];
ret = bpf_obj_pin(fd, createLoc.c_str());
if (ret) {
int err = errno;
ALOGE("create %s -> %d [%d:%s]", createLoc.c_str(), ret, err, strerror(err));
return -err;
}
ret = rename(createLoc.c_str(), mapPinLoc.c_str());
if (ret) {
int err = errno;
ALOGE("rename %s %s -> %d [%d:%s]", createLoc.c_str(), mapPinLoc.c_str(), ret,
err, strerror(err));
return -err;
}
} else {
ret = bpf_obj_pin(fd, mapPinLoc.c_str());
if (ret) return -errno;
}
ret = chown(mapPinLoc.c_str(), (uid_t)md[i].uid, (gid_t)md[i].gid);
if (ret) return -errno;
if (ret) {
int err = errno;
ALOGE("chown(%s, %u, %u) = %d [%d:%s]", mapPinLoc.c_str(), md[i].uid, md[i].gid,
ret, err, strerror(err));
return -err;
}
ret = chmod(mapPinLoc.c_str(), md[i].mode);
if (ret) return -errno;
if (ret) {
int err = errno;
ALOGE("chmod(%s, 0%o) = %d [%d:%s]", mapPinLoc.c_str(), md[i].mode, ret, err,
strerror(err));
return -err;
}
}
struct bpf_map_info map_info = {};
@ -855,7 +972,7 @@ static void applyMapRelo(ifstream& elfFile, vector<unique_fd> &mapFds, vector<co
}
static int loadCodeSections(const char* elfPath, vector<codeSection>& cs, const string& license,
const char* prefix) {
const char* prefix, const unsigned long long allowedDomainBitmask) {
unsigned kvers = kernelVersion();
int ret, fd;
@ -867,6 +984,8 @@ static int loadCodeSections(const char* elfPath, vector<codeSection>& cs, const
string name = cs[i].name;
unsigned bpfMinVer = DEFAULT_BPFLOADER_MIN_VER; // v0.0
unsigned bpfMaxVer = DEFAULT_BPFLOADER_MAX_VER; // v1.0
domain selinux_context = domain::unspecified;
domain pin_subdir = domain::unspecified;
if (cs[i].prog_def.has_value()) {
unsigned min_kver = cs[i].prog_def->min_kver;
@ -878,12 +997,38 @@ static int loadCodeSections(const char* elfPath, vector<codeSection>& cs, const
bpfMinVer = cs[i].prog_def->bpfloader_min_ver;
bpfMaxVer = cs[i].prog_def->bpfloader_max_ver;
selinux_context = getDomainFromSelinuxContext(cs[i].prog_def->selinux_context);
pin_subdir = getDomainFromPinSubdir(cs[i].prog_def->pin_subdir);
// Note: make sure to only check for unrecognized *after* verifying bpfloader
// version limits include this bpfloader's version.
}
ALOGD("cs[%d].name:%s requires bpfloader version [0x%05x,0x%05x)", i, name.c_str(),
bpfMinVer, bpfMaxVer);
if (BPFLOADER_VERSION < bpfMinVer) continue;
if (BPFLOADER_VERSION >= bpfMaxVer) continue;
if (unrecognized(pin_subdir)) return -ENOTDIR;
if (specified(selinux_context)) {
if (!inDomainBitmask(selinux_context, allowedDomainBitmask)) {
ALOGE("prog %s has invalid selinux_context of %d (allowed bitmask 0x%llx)",
name.c_str(), selinux_context, allowedDomainBitmask);
return -EINVAL;
}
ALOGI("prog %s selinux_context [%32s] -> %d -> '%s' (%s)", name.c_str(),
cs[i].prog_def->selinux_context, selinux_context,
lookupSelinuxContext(selinux_context), lookupPinSubdir(selinux_context));
}
if (specified(pin_subdir)) {
if (!inDomainBitmask(pin_subdir, allowedDomainBitmask)) {
ALOGE("prog %s has invalid pin_subdir of %d (allowed bitmask 0x%llx)", name.c_str(),
pin_subdir, allowedDomainBitmask);
return -EINVAL;
}
ALOGI("prog %s pin_subdir [%32s] -> %d -> '%s'", name.c_str(),
cs[i].prog_def->pin_subdir, pin_subdir, lookupPinSubdir(pin_subdir));
}
// strip any potential $foo suffix
// this can be used to provide duplicate programs
@ -893,12 +1038,8 @@ static int loadCodeSections(const char* elfPath, vector<codeSection>& cs, const
bool reuse = false;
// Format of pin location is
// /sys/fs/bpf/<prefix>prog_<filename>_<mapname>
string progPinLoc = BPF_FS_PATH;
progPinLoc += prefix;
progPinLoc += "prog_";
progPinLoc += fname;
progPinLoc += '_';
progPinLoc += name;
string progPinLoc = string(BPF_FS_PATH) + lookupPinSubdir(pin_subdir, prefix) + "prog_" +
fname + '_' + string(name);
if (access(progPinLoc.c_str(), F_OK) == 0) {
fd = retrieveProgram(progPinLoc.c_str());
ALOGD("New bpf prog load reusing prog %s, ret: %d (%s)", progPinLoc.c_str(), fd,
@ -941,13 +1082,42 @@ static int loadCodeSections(const char* elfPath, vector<codeSection>& cs, const
if (fd == 0) return -EINVAL;
if (!reuse) {
ret = bpf_obj_pin(fd, progPinLoc.c_str());
if (ret) return -errno;
if (chmod(progPinLoc.c_str(), 0440)) return -errno;
if (specified(selinux_context)) {
string createLoc = string(BPF_FS_PATH) + lookupPinSubdir(selinux_context) +
"tmp_prog_" + fname + '_' + string(name);
ret = bpf_obj_pin(fd, createLoc.c_str());
if (ret) {
int err = errno;
ALOGE("create %s -> %d [%d:%s]", createLoc.c_str(), ret, err, strerror(err));
return -err;
}
ret = rename(createLoc.c_str(), progPinLoc.c_str());
if (ret) {
int err = errno;
ALOGE("rename %s %s -> %d [%d:%s]", createLoc.c_str(), progPinLoc.c_str(), ret,
err, strerror(err));
return -err;
}
} else {
ret = bpf_obj_pin(fd, progPinLoc.c_str());
if (ret) {
int err = errno;
ALOGE("create %s -> %d [%d:%s]", progPinLoc.c_str(), ret, err, strerror(err));
return -err;
}
}
if (chmod(progPinLoc.c_str(), 0440)) {
int err = errno;
ALOGE("chmod %s 0440 -> [%d:%s]", progPinLoc.c_str(), err, strerror(err));
return -err;
}
if (cs[i].prog_def.has_value()) {
if (chown(progPinLoc.c_str(), (uid_t)cs[i].prog_def->uid,
(gid_t)cs[i].prog_def->gid)) {
return -errno;
int err = errno;
ALOGE("chown %s %d %d -> [%d:%s]", progPinLoc.c_str(), cs[i].prog_def->uid,
cs[i].prog_def->gid, err, strerror(err));
return -err;
}
}
}
@ -968,7 +1138,8 @@ static int loadCodeSections(const char* elfPath, vector<codeSection>& cs, const
}
int loadProg(const char* elfPath, bool* isCritical, const char* prefix,
const bpf_prog_type* allowed, size_t numAllowed) {
const unsigned long long allowedDomainBitmask, const bpf_prog_type* allowed,
size_t numAllowed) {
vector<char> license;
vector<char> critical;
vector<codeSection> cs;
@ -1042,7 +1213,7 @@ int loadProg(const char* elfPath, bool* isCritical, const char* prefix,
/* Just for future debugging */
if (0) dumpAllCs(cs);
ret = createMaps(elfPath, elfFile, mapFds, prefix, sizeOfBpfMapDef);
ret = createMaps(elfPath, elfFile, mapFds, prefix, allowedDomainBitmask, sizeOfBpfMapDef);
if (ret) {
ALOGE("Failed to create maps: (ret=%d) in %s", ret, elfPath);
return ret;
@ -1053,7 +1224,7 @@ int loadProg(const char* elfPath, bool* isCritical, const char* prefix,
applyMapRelo(elfFile, mapFds, cs);
ret = loadCodeSections(elfPath, cs, string(license.data()), prefix);
ret = loadCodeSections(elfPath, cs, string(license.data()), prefix, allowedDomainBitmask);
if (ret) ALOGE("Failed to load programs, loadCodeSections ret=%d", ret);
return ret;

54
libbpf_android/include/libbpf_android.h
View file

@ -23,8 +23,62 @@
namespace android {
namespace bpf {
// Bpf programs may specify per-program & per-map selinux_context and pin_subdir.
//
// The BpfLoader needs to convert these bpf.o specified strings into an enum
// for internal use (to check that valid values were specified for the specific
// location of the bpf.o file).
//
// It also needs to map selinux_context's into pin_subdir's.
// This is because of how selinux_context is actually implemented via pin+rename.
//
// Thus 'domain' enumerates all selinux_context's/pin_subdir's that the BpfLoader
// is aware of. Thus there currently needs to be a 1:1 mapping between the two.
//
enum class domain : int {
unrecognized = -1, // invalid for this version of the bpfloader
unspecified = 0, // means just use the default for that specific pin location
platform, // fs_bpf /sys/fs/bpf
tethering, // (S+) fs_bpf_tethering /sys/fs/bpf/tethering
net_private, // (T+) fs_bpf_net_private /sys/fs/bpf/net_private
net_shared, // (T+) fs_bpf_net_shared /sys/fs/bpf/net_shared
netd_readonly, // (T+) fs_bpf_netd_readonly /sys/fs/bpf/netd_readonly
netd_shared, // (T+) fs_bpf_netd_shared /sys/fs/bpf/netd_shared
vendor, // (T+) fs_bpf_vendor /sys/fs/bpf/vendor
};
// Note: this does not include domain::unrecognized, but does include domain::unspecified
static constexpr domain AllDomains[] = {
domain::unspecified,
domain::platform,
domain::tethering,
domain::net_private,
domain::net_shared,
domain::netd_readonly,
domain::netd_shared,
domain::vendor,
};
static constexpr bool unrecognized(domain d) {
return d == domain::unrecognized;
}
// Note: this doesn't handle unrecognized, handle it first.
static constexpr bool specified(domain d) {
return d != domain::unspecified;
}
static constexpr unsigned long long domainToBitmask(domain d) {
return specified(d) ? 1uLL << (static_cast<int>(d) - 1) : 0;
}
static constexpr bool inDomainBitmask(domain d, unsigned long long v) {
return domainToBitmask(d) & v;
}
// BPF loader implementation. Loads an eBPF ELF object
int loadProg(const char* elfPath, bool* isCritical, const char* prefix = "",
const unsigned long long allowedDomainBitmask = 0,
const bpf_prog_type* allowed = nullptr, size_t numAllowed = 0);
// Exposed for testing