/* * Copyright (C) 2008 The Android Open Source Project * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include "private/grp_pwd.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include "private/ErrnoRestorer.h" #include "private/android_filesystem_config.h" #include "platform/bionic/macros.h" #if defined(__ANDROID__) // Generated android_ids array #include "generated_android_ids.h" #else // Empty array for host; everything is from the database files #include "empty_android_ids.h" #endif #include "grp_pwd_file.h" static PasswdFile passwd_files[] = { {"/etc/passwd", "system_"}, // symlinks to /system/etc/passwd in Android {"/vendor/etc/passwd", "vendor_"}, {"/odm/etc/passwd", "odm_"}, {"/product/etc/passwd", "product_"}, {"/system_ext/etc/passwd", "system_ext_"}, }; static GroupFile group_files[] = { {"/etc/group", "system_"}, // symlinks to /system/etc/group in Android {"/vendor/etc/group", "vendor_"}, {"/odm/etc/group", "odm_"}, {"/product/etc/group", "product_"}, {"/system_ext/etc/group", "system_ext_"}, }; // POSIX seems to envisage an implementation where the functions are // implemented by brute-force searching with getpwent(3), and the // functions are implemented similarly with getgrent(3). This means that it's // okay for all the functions to share state, and all the // functions to share state, but functions can't clobber // functions' state and vice versa. #include "bionic/pthread_internal.h" static void init_group_state(group_state_t* state) { memset(state, 0, sizeof(group_state_t) - sizeof(state->getgrent_idx)); state->group_.gr_name = state->group_name_buffer_; state->group_.gr_mem = state->group_members_; state->group_.gr_mem[0] = state->group_.gr_name; } static group_state_t* get_group_tls_buffer() { auto result = &__get_bionic_tls().group; init_group_state(result); return result; } static void init_passwd_state(passwd_state_t* state) { memset(state, 0, sizeof(passwd_state_t) - sizeof(state->getpwent_idx)); state->passwd_.pw_name = state->name_buffer_; state->passwd_.pw_dir = state->dir_buffer_; state->passwd_.pw_shell = state->sh_buffer_; } static passwd_state_t* get_passwd_tls_buffer() { auto result = &__get_bionic_tls().passwd; init_passwd_state(result); return result; } static passwd* android_iinfo_to_passwd(passwd_state_t* state, const android_id_info* iinfo) { snprintf(state->name_buffer_, sizeof(state->name_buffer_), "%s", iinfo->name); snprintf(state->dir_buffer_, sizeof(state->dir_buffer_), "/"); snprintf(state->sh_buffer_, sizeof(state->sh_buffer_), "/bin/sh"); passwd* pw = &state->passwd_; pw->pw_uid = iinfo->aid; pw->pw_gid = iinfo->aid; return pw; } static group* android_iinfo_to_group(group_state_t* state, const android_id_info* iinfo) { snprintf(state->group_name_buffer_, sizeof(state->group_name_buffer_), "%s", iinfo->name); group* gr = &state->group_; gr->gr_gid = iinfo->aid; return gr; } static const android_id_info* find_android_id_info(unsigned id) { for (size_t n = 0; n < android_id_count; ++n) { if (android_ids[n].aid == id) { return &android_ids[n]; } } return nullptr; } static const android_id_info* find_android_id_info(const char* name) { for (size_t n = 0; n < android_id_count; ++n) { if (!strcmp(android_ids[n].name, name)) { return &android_ids[n]; } } return nullptr; } // These are a list of the reserved app ranges, and should never contain anything below // AID_APP_START. They exist per user, so a given uid/gid modulo AID_USER_OFFSET will map // to these ranges. struct IdRange { id_t start; id_t end; }; static constexpr IdRange user_ranges[] = { { AID_APP_START, AID_APP_END }, { AID_ISOLATED_START, AID_ISOLATED_END }, }; static constexpr IdRange group_ranges[] = { { AID_APP_START, AID_APP_END }, { AID_CACHE_GID_START, AID_CACHE_GID_END }, { AID_EXT_GID_START, AID_EXT_GID_END }, { AID_EXT_CACHE_GID_START, AID_EXT_CACHE_GID_END }, { AID_SHARED_GID_START, AID_SHARED_GID_END }, { AID_ISOLATED_START, AID_ISOLATED_END }, }; template static constexpr bool verify_user_ranges_ascending(T (&ranges)[N]) { auto array_size = N; if (array_size < 2) return false; if (ranges[0].start > ranges[0].end) return false; for (size_t i = 1; i < array_size; ++i) { if (ranges[i].start > ranges[i].end) return false; if (ranges[i - 1].end > ranges[i].start) return false; } return true; } static_assert(verify_user_ranges_ascending(user_ranges), "user_ranges must have ascending ranges"); static_assert(verify_user_ranges_ascending(group_ranges), "user_ranges must have ascending ranges"); // This list comes from PackageManagerService.java, where platform AIDs are added to list of valid // AIDs for packages via addSharedUserLPw(). static constexpr const id_t secondary_user_platform_ids[] = { AID_SYSTEM, AID_RADIO, AID_LOG, AID_NFC, AID_BLUETOOTH, AID_SHELL, AID_SECURE_ELEMENT, AID_NETWORK_STACK, }; static bool platform_id_secondary_user_allowed(id_t id) { for (const auto& allowed_id : secondary_user_platform_ids) { if (allowed_id == id) { return true; } } return false; } #if defined(__ANDROID__) static bool is_valid_app_id(id_t id, bool is_group) { id_t appid = id % AID_USER_OFFSET; // AID_OVERFLOWUID is never a valid app id, so we explicitly return false to ensure this. // This is true across all users, as there is no reason to ever map this id into any user range. if (appid == AID_OVERFLOWUID) { return false; } auto ranges_size = is_group ? arraysize(group_ranges) : arraysize(user_ranges); auto ranges = is_group ? group_ranges : user_ranges; // If we're checking an appid that resolves below the user range, then it's a platform AID for a // seconary user. We only allow a reduced set of these, so we must check that it is allowed. if (appid < ranges[0].start && platform_id_secondary_user_allowed(appid)) { return true; } // The shared GID range is only valid for the first user. if (appid >= AID_SHARED_GID_START && appid <= AID_SHARED_GID_END && appid != id) { return false; } // Otherwise check that the appid is in one of the reserved ranges. for (size_t i = 0; i < ranges_size; ++i) { if (appid >= ranges[i].start && appid <= ranges[i].end) { return true; } } return false; } #else static bool is_valid_app_id(id_t, bool) { // Host doesn't have the concept of app_id return false; } #endif // if defined(__ANDROID__) // This provides an iterater for app_ids within the first user's app id's. static id_t get_next_app_id(id_t current_id, bool is_group) { auto ranges_size = is_group ? arraysize(group_ranges) : arraysize(user_ranges); auto ranges = is_group ? group_ranges : user_ranges; // If current_id is below the first of the ranges, then we're uninitialized, and return the first // valid id. if (current_id < ranges[0].start) { return ranges[0].start; } id_t incremented_id = current_id + 1; // Check to see if our incremented_id is between two ranges, and if so, return the beginning of // the next valid range. for (size_t i = 1; i < ranges_size; ++i) { if (incremented_id > ranges[i - 1].end && incremented_id < ranges[i].start) { return ranges[i].start; } } // Check to see if our incremented_id is above final range, and return -1 to indicate that we've // completed if so. if (incremented_id > ranges[ranges_size - 1].end) { return -1; } // Otherwise the incremented_id is valid, so return it. return incremented_id; } // Translate a user/group name to the corresponding user/group id. // all_a1234 -> 0 * AID_USER_OFFSET + AID_SHARED_GID_START + 1234 (group name only) // u0_a1234_ext_cache -> 0 * AID_USER_OFFSET + AID_EXT_CACHE_GID_START + 1234 (group name only) // u0_a1234_ext -> 0 * AID_USER_OFFSET + AID_EXT_GID_START + 1234 (group name only) // u0_a1234_cache -> 0 * AID_USER_OFFSET + AID_CACHE_GID_START + 1234 (group name only) // u0_a1234 -> 0 * AID_USER_OFFSET + AID_APP_START + 1234 // u2_i1000 -> 2 * AID_USER_OFFSET + AID_ISOLATED_START + 1000 // u1_system -> 1 * AID_USER_OFFSET + android_ids['system'] // returns 0 and sets errno to ENOENT in case of error. static id_t app_id_from_name(const char* name, bool is_group) { char* end; unsigned long userid; bool is_shared_gid = false; if (is_group && name[0] == 'a' && name[1] == 'l' && name[2] == 'l') { end = const_cast(name+3); userid = 0; is_shared_gid = true; } else if (name[0] == 'u' && isdigit(name[1])) { userid = strtoul(name+1, &end, 10); } else { errno = ENOENT; return 0; } if (end[0] != '_' || end[1] == 0) { errno = ENOENT; return 0; } unsigned long appid = 0; if (end[1] == 'a' && isdigit(end[2])) { if (is_shared_gid) { // end will point to \0 if the strtoul below succeeds. appid = strtoul(end+2, &end, 10) + AID_SHARED_GID_START; if (appid > AID_SHARED_GID_END) { errno = ENOENT; return 0; } } else { // end will point to \0 if the strtoul below succeeds. appid = strtoul(end+2, &end, 10); if (is_group) { if (!strcmp(end, "_ext_cache")) { end += 10; appid += AID_EXT_CACHE_GID_START; } else if (!strcmp(end, "_ext")) { end += 4; appid += AID_EXT_GID_START; } else if (!strcmp(end, "_cache")) { end += 6; appid += AID_CACHE_GID_START; } else { appid += AID_APP_START; } } else { appid += AID_APP_START; } } } else if (end[1] == 'i' && isdigit(end[2])) { // end will point to \0 if the strtoul below succeeds. appid = strtoul(end+2, &end, 10) + AID_ISOLATED_START; } else if (auto* android_id_info = find_android_id_info(end + 1); android_id_info != nullptr) { appid = android_id_info->aid; end += strlen(android_id_info->name) + 1; if (!platform_id_secondary_user_allowed(appid)) { errno = ENOENT; return 0; } } // Check that the entire string was consumed by one of the 3 cases above. if (end[0] != 0) { errno = ENOENT; return 0; } // Check that user id won't overflow. if (userid > 1000) { errno = ENOENT; return 0; } // Check that app id is within range. if (appid >= AID_USER_OFFSET) { errno = ENOENT; return 0; } return (appid + userid*AID_USER_OFFSET); } static void print_app_name_from_uid(const uid_t uid, char* buffer, const int bufferlen) { const uid_t appid = uid % AID_USER_OFFSET; const uid_t userid = uid / AID_USER_OFFSET; if (appid >= AID_ISOLATED_START) { snprintf(buffer, bufferlen, "u%u_i%u", userid, appid - AID_ISOLATED_START); } else if (appid < AID_APP_START) { if (auto* android_id_info = find_android_id_info(appid); android_id_info != nullptr) { snprintf(buffer, bufferlen, "u%u_%s", userid, android_id_info->name); } } else { snprintf(buffer, bufferlen, "u%u_a%u", userid, appid - AID_APP_START); } } static void print_app_name_from_gid(const gid_t gid, char* buffer, const int bufferlen) { const uid_t appid = gid % AID_USER_OFFSET; const uid_t userid = gid / AID_USER_OFFSET; if (appid >= AID_ISOLATED_START) { snprintf(buffer, bufferlen, "u%u_i%u", userid, appid - AID_ISOLATED_START); } else if (userid == 0 && appid >= AID_SHARED_GID_START && appid <= AID_SHARED_GID_END) { snprintf(buffer, bufferlen, "all_a%u", appid - AID_SHARED_GID_START); } else if (appid >= AID_EXT_CACHE_GID_START && appid <= AID_EXT_CACHE_GID_END) { snprintf(buffer, bufferlen, "u%u_a%u_ext_cache", userid, appid - AID_EXT_CACHE_GID_START); } else if (appid >= AID_EXT_GID_START && appid <= AID_EXT_GID_END) { snprintf(buffer, bufferlen, "u%u_a%u_ext", userid, appid - AID_EXT_GID_START); } else if (appid >= AID_CACHE_GID_START && appid <= AID_CACHE_GID_END) { snprintf(buffer, bufferlen, "u%u_a%u_cache", userid, appid - AID_CACHE_GID_START); } else if (appid < AID_APP_START) { if (auto* android_id_info = find_android_id_info(appid); android_id_info != nullptr) { snprintf(buffer, bufferlen, "u%u_%s", userid, android_id_info->name); } } else { snprintf(buffer, bufferlen, "u%u_a%u", userid, appid - AID_APP_START); } } #if defined(__ANDROID__) static bool device_launched_before_api_29() { // Check if ro.product.first_api_level is set to a value > 0 and < 29, if so, this device was // launched before API 29 (Q). Any other value is considered to be either in development or // launched after. // Cache the value as __system_property_get() is expensive and this may be called often. static bool result = [] { char value[PROP_VALUE_MAX] = { 0 }; if (__system_property_get("ro.product.first_api_level", value) == 0) { return false; } int value_int = atoi(value); return value_int != 0 && value_int < 29; }(); return result; } // oem_XXXX -> uid // Supported ranges: // AID_OEM_RESERVED_START to AID_OEM_RESERVED_END (2900-2999) // AID_OEM_RESERVED_2_START to AID_OEM_RESERVED_2_END (5000-5999) // Check OEM id is within range. static bool is_oem_id(id_t id) { // Upgrading devices launched before API level 29 may not comply with the below check. // Due to the difficulty in changing uids after launch, it is waived for these devices. // The legacy range: // AID_OEM_RESERVED_START to AID_EVERYBODY (2900-9996), excluding builtin AIDs. if (device_launched_before_api_29() && id >= AID_OEM_RESERVED_START && id < AID_EVERYBODY && find_android_id_info(id) == nullptr) { return true; } return (id >= AID_OEM_RESERVED_START && id <= AID_OEM_RESERVED_END) || (id >= AID_OEM_RESERVED_2_START && id <= AID_OEM_RESERVED_2_END); } #else static bool is_oem_id(id_t) { // no OEM ids in host return false; } #endif // if defined(__ANDROID__) // Translate an OEM name to the corresponding user/group id. static id_t oem_id_from_name(const char* name) { unsigned int id; if (sscanf(name, "oem_%u", &id) != 1) { return 0; } if (!is_oem_id(id)) { return 0; } return static_cast(id); } static passwd* oem_id_to_passwd(uid_t uid, passwd_state_t* state) { for (auto& passwd_file : passwd_files) { if (passwd_file.FindById(uid, state)) { return &state->passwd_; } } if (!is_oem_id(uid)) { return nullptr; } snprintf(state->name_buffer_, sizeof(state->name_buffer_), "oem_%u", uid); snprintf(state->dir_buffer_, sizeof(state->dir_buffer_), "/"); snprintf(state->sh_buffer_, sizeof(state->sh_buffer_), "/bin/sh"); passwd* pw = &state->passwd_; pw->pw_uid = uid; pw->pw_gid = uid; return pw; } static group* oem_id_to_group(gid_t gid, group_state_t* state) { for (auto& group_file : group_files) { if (group_file.FindById(gid, state)) { return &state->group_; } } if (!is_oem_id(gid)) { return nullptr; } snprintf(state->group_name_buffer_, sizeof(state->group_name_buffer_), "oem_%u", gid); group* gr = &state->group_; gr->gr_gid = gid; return gr; } // Translate a uid into the corresponding name. // 0 to AID_APP_START-1 -> "system", "radio", etc. // AID_APP_START to AID_ISOLATED_START-1 -> u0_a1234 // AID_ISOLATED_START to AID_USER_OFFSET-1 -> u0_i1234 // AID_USER_OFFSET+ -> u1_radio, u1_a1234, u2_i1234, etc. // returns a passwd structure (sets errno to ENOENT on failure). static passwd* app_id_to_passwd(uid_t uid, passwd_state_t* state) { if (uid < AID_APP_START || !is_valid_app_id(uid, false)) { errno = ENOENT; return nullptr; } print_app_name_from_uid(uid, state->name_buffer_, sizeof(state->name_buffer_)); const uid_t appid = uid % AID_USER_OFFSET; if (appid < AID_APP_START) { snprintf(state->dir_buffer_, sizeof(state->dir_buffer_), "/"); } else { snprintf(state->dir_buffer_, sizeof(state->dir_buffer_), "/data"); } snprintf(state->sh_buffer_, sizeof(state->sh_buffer_), "/bin/sh"); passwd* pw = &state->passwd_; pw->pw_uid = uid; pw->pw_gid = uid; return pw; } // Translate a gid into the corresponding app_ // group structure (sets errno to ENOENT on failure). static group* app_id_to_group(gid_t gid, group_state_t* state) { if (gid < AID_APP_START || !is_valid_app_id(gid, true)) { errno = ENOENT; return nullptr; } print_app_name_from_gid(gid, state->group_name_buffer_, sizeof(state->group_name_buffer_)); group* gr = &state->group_; gr->gr_gid = gid; return gr; } passwd* getpwuid_internal(uid_t uid, passwd_state_t* state) { if (auto* android_id_info = find_android_id_info(uid); android_id_info != nullptr) { return android_iinfo_to_passwd(state, android_id_info); } // Find an entry from the database file passwd* pw = oem_id_to_passwd(uid, state); if (pw != nullptr) { return pw; } return app_id_to_passwd(uid, state); } passwd* getpwuid(uid_t uid) { // NOLINT: implementing bad function. passwd_state_t* state = get_passwd_tls_buffer(); return getpwuid_internal(uid, state); } passwd* getpwnam_internal(const char* login, passwd_state_t* state) { if (auto* android_id_info = find_android_id_info(login); android_id_info != nullptr) { return android_iinfo_to_passwd(state, android_id_info); } // Find an entry from the database file for (auto& passwd_file : passwd_files) { if (passwd_file.FindByName(login, state)) { return &state->passwd_; } } // Handle OEM range. passwd* pw = oem_id_to_passwd(oem_id_from_name(login), state); if (pw != nullptr) { return pw; } return app_id_to_passwd(app_id_from_name(login, false), state); } passwd* getpwnam(const char* login) { // NOLINT: implementing bad function. passwd_state_t* state = get_passwd_tls_buffer(); return getpwnam_internal(login, state); } static int getpasswd_r(bool by_name, const char* name, uid_t uid, struct passwd* pwd, char* buf, size_t buflen, struct passwd** result) { ErrnoRestorer errno_restorer; *result = nullptr; char* p = reinterpret_cast(__BIONIC_ALIGN(reinterpret_cast(buf), sizeof(uintptr_t))); if (p + sizeof(passwd_state_t) > buf + buflen) { return ERANGE; } passwd_state_t* state = reinterpret_cast(p); init_passwd_state(state); passwd* retval = (by_name ? getpwnam_internal(name, state) : getpwuid_internal(uid, state)); if (retval != nullptr) { *pwd = *retval; *result = pwd; return 0; } return errno; } int getpwnam_r(const char* name, passwd* pwd, char* buf, size_t byte_count, passwd** result) { return getpasswd_r(true, name, -1, pwd, buf, byte_count, result); } int getpwuid_r(uid_t uid, passwd* pwd, char* buf, size_t byte_count, passwd** result) { return getpasswd_r(false, nullptr, uid, pwd, buf, byte_count, result); } // All users are in just one group, the one passed in. int getgrouplist(const char* /*user*/, gid_t group, gid_t* groups, int* ngroups) { if (*ngroups < 1) { *ngroups = 1; return -1; } groups[0] = group; return (*ngroups = 1); } char* getlogin() { // NOLINT: implementing bad function. passwd *pw = getpwuid(getuid()); // NOLINT: implementing bad function in terms of bad function. return pw ? pw->pw_name : nullptr; } int getlogin_r(char* buf, size_t size) { char* login = getlogin(); if (login == nullptr) return errno; size_t login_length = strlen(login) + 1; if (login_length > size) return ERANGE; memcpy(buf, login, login_length); return 0; } void setpwent() { passwd_state_t* state = get_passwd_tls_buffer(); if (state) { state->getpwent_idx = 0; } } void endpwent() { setpwent(); } passwd* getpwent() { passwd_state_t* state = get_passwd_tls_buffer(); if (state->getpwent_idx < 0) { return nullptr; } size_t start = 0; ssize_t end = android_id_count; if (state->getpwent_idx < end) { return android_iinfo_to_passwd(state, android_ids + state->getpwent_idx++); } start = end; end += AID_OEM_RESERVED_END - AID_OEM_RESERVED_START + 1; if (state->getpwent_idx < end) { return oem_id_to_passwd( state->getpwent_idx++ - start + AID_OEM_RESERVED_START, state); } start = end; end += AID_OEM_RESERVED_2_END - AID_OEM_RESERVED_2_START + 1; if (state->getpwent_idx < end) { return oem_id_to_passwd( state->getpwent_idx++ - start + AID_OEM_RESERVED_2_START, state); } start = end; end += AID_SYSTEM_EXT_RESERVED_END - AID_SYSTEM_RESERVED_START + 1; if (state->getpwent_idx < end) { // No one calls this enough to worry about how inefficient the below is. auto* oem_passwd = oem_id_to_passwd(state->getpwent_idx++ - start + AID_SYSTEM_RESERVED_START, state); while (oem_passwd == nullptr && state->getpwent_idx < end) { oem_passwd = oem_id_to_passwd(state->getpwent_idx++ - start + AID_SYSTEM_RESERVED_START, state); } if (oem_passwd != nullptr) { return oem_passwd; } } state->getpwent_idx = get_next_app_id(state->getpwent_idx, false); if (state->getpwent_idx != -1) { return app_id_to_passwd(state->getpwent_idx, state); } // We are not reporting u1_a* and higher or we will be here forever return nullptr; } static group* getgrgid_internal(gid_t gid, group_state_t* state) { if (auto* android_id_info = find_android_id_info(gid); android_id_info != nullptr) { return android_iinfo_to_group(state, android_id_info); } // Find an entry from the database file group* grp = oem_id_to_group(gid, state); if (grp != nullptr) { return grp; } return app_id_to_group(gid, state); } group* getgrgid(gid_t gid) { // NOLINT: implementing bad function. group_state_t* state = get_group_tls_buffer(); return getgrgid_internal(gid, state); } static group* getgrnam_internal(const char* name, group_state_t* state) { if (auto* android_id_info = find_android_id_info(name); android_id_info != nullptr) { return android_iinfo_to_group(state, android_id_info); } // Find an entry from the database file for (auto& group_file : group_files) { if (group_file.FindByName(name, state)) { return &state->group_; } } // Handle OEM range. group* grp = oem_id_to_group(oem_id_from_name(name), state); if (grp != nullptr) { return grp; } return app_id_to_group(app_id_from_name(name, true), state); } group* getgrnam(const char* name) { // NOLINT: implementing bad function. group_state_t* state = get_group_tls_buffer(); return getgrnam_internal(name, state); } static int getgroup_r(bool by_name, const char* name, gid_t gid, struct group* grp, char* buf, size_t buflen, struct group** result) { ErrnoRestorer errno_restorer; *result = nullptr; char* p = reinterpret_cast( __BIONIC_ALIGN(reinterpret_cast(buf), sizeof(uintptr_t))); if (p + sizeof(group_state_t) > buf + buflen) { return ERANGE; } group_state_t* state = reinterpret_cast(p); init_group_state(state); group* retval = (by_name ? getgrnam_internal(name, state) : getgrgid_internal(gid, state)); if (retval != nullptr) { *grp = *retval; *result = grp; return 0; } return errno; } int getgrgid_r(gid_t gid, struct group* grp, char* buf, size_t buflen, struct group** result) { return getgroup_r(false, nullptr, gid, grp, buf, buflen, result); } int getgrnam_r(const char* name, struct group* grp, char* buf, size_t buflen, struct group **result) { return getgroup_r(true, name, 0, grp, buf, buflen, result); } void setgrent() { group_state_t* state = get_group_tls_buffer(); if (state) { state->getgrent_idx = 0; } } void endgrent() { setgrent(); } group* getgrent() { group_state_t* state = get_group_tls_buffer(); if (state->getgrent_idx < 0) { return nullptr; } size_t start = 0; ssize_t end = android_id_count; if (state->getgrent_idx < end) { return android_iinfo_to_group(state, android_ids + state->getgrent_idx++); } start = end; end += AID_OEM_RESERVED_END - AID_OEM_RESERVED_START + 1; if (state->getgrent_idx < end) { return oem_id_to_group( state->getgrent_idx++ - start + AID_OEM_RESERVED_START, state); } start = end; end += AID_OEM_RESERVED_2_END - AID_OEM_RESERVED_2_START + 1; if (state->getgrent_idx < end) { return oem_id_to_group( state->getgrent_idx++ - start + AID_OEM_RESERVED_2_START, state); } start = end; end += AID_SYSTEM_EXT_RESERVED_END - AID_SYSTEM_RESERVED_START + 1; if (state->getgrent_idx < end) { // No one calls this enough to worry about how inefficient the below is. init_group_state(state); auto* oem_group = oem_id_to_group(state->getgrent_idx++ - start + AID_SYSTEM_RESERVED_START, state); while (oem_group == nullptr && state->getgrent_idx < end) { oem_group = oem_id_to_group(state->getgrent_idx++ - start + AID_SYSTEM_RESERVED_START, state); } if (oem_group != nullptr) { return oem_group; } } start = end; end += AID_USER_OFFSET - AID_APP_START; // Do not expose higher groups state->getgrent_idx = get_next_app_id(state->getgrent_idx, true); if (state->getgrent_idx != -1) { return app_id_to_group(state->getgrent_idx, state); } // We are not reporting u1_a* and higher or we will be here forever return nullptr; }