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https://github.com/topjohnwu/Magisk.git
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ec3705f2ed
Introduce new domain `magisk_client` and new file type `magisk_exec`. Connection to magiskd's always-on socket is restricted to magisk_client only. Whitelisted process domains can transit to magisk_client through executing files labelled magisk_exec. The main magisk binary shall be the only file labelled as magisk_exec throughout the whole system. All processes thus are no longer allowed to connect to magiskd directly without going through the proper magisk binary. Connection failures are silenced from audit logs with dontaudit rules, so crazy processes which traverse through all unix domain sockets to try connection can no longer check logcat to know the actual reason behind EACCES, leaking the denied process policy (which is u:r:magisk:s0). This also allows us to remove many rules that open up holes in untrusted_app domains that were used to make remote shell work properly. Since all processes establishing the remote shell are now restricted to the magisk_client domain, all these rules are moved to magisk_client. This makes Magisk require fewer compromises in Android's security model. Note: as of this commit, requesting new root access via Magisk Manager will stop working as Magisk Manager can no longer communicate with magiskd directly. This will be addressed in a future commit that involves changes in both native and application side.
95 lines
2.2 KiB
C++
95 lines
2.2 KiB
C++
#include <unistd.h>
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#include <cstdio>
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#include <cstdlib>
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#include <string>
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#include <vector>
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#include <magisk.hpp>
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#include <utils.hpp>
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#include <selinux.hpp>
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using namespace std;
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#define BBEXEC_CMD DATABIN "/busybox", "sh"
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static void set_standalone() {
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setenv("ASH_STANDALONE", "1", 1);
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};
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void exec_script(const char *script) {
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exec_t exec {
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.pre_exec = set_standalone,
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.fork = fork_no_zombie
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};
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exec_command_sync(exec, BBEXEC_CMD, script);
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}
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void exec_common_scripts(const char *stage) {
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LOGI("* Running %s.d scripts\n", stage);
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char path[4096];
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char *name = path + sprintf(path, SECURE_DIR "/%s.d", stage);
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auto dir = xopen_dir(path);
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if (!dir)
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return;
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int dfd = dirfd(dir.get());
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bool pfs = stage == "post-fs-data"sv;
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*(name++) = '/';
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for (dirent *entry; (entry = xreaddir(dir.get()));) {
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if (entry->d_type == DT_REG) {
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if (faccessat(dfd, entry->d_name, X_OK, 0) != 0)
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continue;
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LOGI("%s.d: exec [%s]\n", stage, entry->d_name);
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strcpy(name, entry->d_name);
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exec_t exec {
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.pre_exec = set_standalone,
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.fork = pfs ? fork_no_zombie : fork_dont_care
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};
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if (pfs)
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exec_command_sync(exec, BBEXEC_CMD, path);
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else
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exec_command(exec, BBEXEC_CMD, path);
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}
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}
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}
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void exec_module_scripts(const char *stage, const vector<string> &module_list) {
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LOGI("* Running module %s scripts\n", stage);
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char path[4096];
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bool pfs = stage == "post-fs-data"sv;
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for (auto &m : module_list) {
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const char* module = m.c_str();
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sprintf(path, MODULEROOT "/%s/%s.sh", module, stage);
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if (access(path, F_OK) == -1)
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continue;
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LOGI("%s: exec [%s.sh]\n", module, stage);
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exec_t exec {
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.pre_exec = set_standalone,
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.fork = pfs ? fork_no_zombie : fork_dont_care
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};
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if (pfs)
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exec_command_sync(exec, BBEXEC_CMD, path);
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else
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exec_command(exec, BBEXEC_CMD, path);
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}
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}
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constexpr char install_script[] = R"EOF(
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APK=%s
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log -t Magisk "apk_install: $APK"
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log -t Magisk "apk_install: `pm install -r $APK 2>&1`"
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rm -f $APK
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)EOF";
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void install_apk(const char *apk) {
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setfilecon(apk, "u:object_r:" SEPOL_FILE_TYPE ":s0");
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exec_t exec {
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.pre_exec = set_standalone,
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.fork = fork_no_zombie
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};
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char cmds[sizeof(install_script) + 4096];
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sprintf(cmds, install_script, apk);
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exec_command_sync(exec, BBEXEC_CMD, "-c", cmds);
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}
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