/* * libslp-sysman * * Copyright (c) 2000 - 2011 Samsung Electronics Co., Ltd. All rights reserved. * * Contact: DongGi Jang * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * */ #include #include #include #include #include #include #include #include #include #include "sysman.h" #include "sysman-priv.h" #define PREDEF_PWROFF_POPUP "pwroff-popup" #define PREDEF_ENTERSLEEP "entersleep" #define PREDEF_LEAVESLEEP "leavesleep" #define PREDEF_REBOOT "reboot" #define PREDEF_BACKGRD "backgrd" #define PREDEF_FOREGRD "foregrd" #define PREDEF_ACTIVE "active" #define PREDEF_INACTIVE "inactive" #define PREDEF_SET_DATETIME "set_datetime" #define PREDEF_SET_TIMEZONE "set_timezone" #define PREDEF_MOUNT_MMC "mountmmc" #define PREDEF_UNMOUNT_MMC "unmountmmc" #define PREDEF_FORMAT_MMC "formatmmc" #define PREDEF_SET_MAX_FREQUENCY "set_max_frequency" #define PREDEF_SET_MIN_FREQUENCY "set_min_frequency" #define PREDEF_RELEASE_MAX_FREQUENCY "release_max_frequency" #define PREDEF_RELEASE_MIN_FREQUENCY "release_min_frequency" enum sysnoti_cmd { ADD_SYSMAN_ACTION, CALL_SYSMAN_ACTION }; #define SYSNOTI_SOCKET_PATH "/tmp/sn" static inline int send_int(int fd, int val) { return write(fd, &val, sizeof(int)); } static inline int send_str(int fd, char *str) { int len; int ret; if (str == NULL) { len = 0; ret = write(fd, &len, sizeof(int)); } else { len = strlen(str); if (len > SYSMAN_MAXSTR) len = SYSMAN_MAXSTR; write(fd, &len, sizeof(int)); ret = write(fd, str, len); } return ret; } static int sysnoti_send(struct sysnoti *msg) { ERR("--- %s: start", __FUNCTION__); int client_len; int client_sockfd; int result; struct sockaddr_un clientaddr; int i; client_sockfd = socket(AF_UNIX, SOCK_STREAM, 0); if (client_sockfd == -1) { printf("%s: socket create failed\n", __FUNCTION__); return -1; } bzero(&clientaddr, sizeof(clientaddr)); clientaddr.sun_family = AF_UNIX; strncpy(clientaddr.sun_path, SYSNOTI_SOCKET_PATH, sizeof(clientaddr.sun_path) - 1); client_len = sizeof(clientaddr); if (connect(client_sockfd, (struct sockaddr *)&clientaddr, client_len) < 0) { printf("%s: connect failed\n", __FUNCTION__); return -1; } send_int(client_sockfd, msg->pid); send_int(client_sockfd, msg->cmd); send_str(client_sockfd, msg->type); send_str(client_sockfd, msg->path); send_int(client_sockfd, msg->argc); for (i = 0; i < msg->argc; i++) send_str(client_sockfd, msg->argv[i]); ERR("--- %s: read", __FUNCTION__); read(client_sockfd, &result, sizeof(int)); close(client_sockfd); ERR("--- %s: end", __FUNCTION__); return result; } API int sysman_call_predef_action(const char *type, int num, ...) { ERR("--- %s: start", __FUNCTION__); struct sysnoti *msg; int ret; va_list argptr; int i; char *args = NULL; if (type == NULL || num > SYSMAN_MAXARG) { errno = EINVAL; return -1; } msg = malloc(sizeof(struct sysnoti)); if (msg == NULL) { /* Do something for not enought memory error */ return -1; } msg->pid = getpid(); msg->cmd = CALL_SYSMAN_ACTION; msg->type = (char *)type; msg->path = NULL; msg->argc = num; va_start(argptr, num); for (i = 0; i < num; i++) { args = va_arg(argptr, char *); msg->argv[i] = args; } va_end(argptr); ERR("--- %s: send msg", __FUNCTION__); ret = sysnoti_send(msg); free(msg); ERR("--- %s: end", __FUNCTION__); return ret; } API int sysman_inform_foregrd(void) { char buf[255]; snprintf(buf, sizeof(buf), "%d", getpid()); return sysman_call_predef_action(PREDEF_FOREGRD, 1, buf); } API int sysman_inform_backgrd(void) { char buf[255]; snprintf(buf, sizeof(buf), "%d", getpid()); return sysman_call_predef_action(PREDEF_BACKGRD, 1, buf); } API int sysman_inform_active(pid_t pid) { char buf[255]; snprintf(buf, sizeof(buf), "%d", pid); return sysman_call_predef_action(PREDEF_ACTIVE, 1, buf); } API int sysman_inform_inactive(pid_t pid) { char buf[255]; snprintf(buf, sizeof(buf), "%d", pid); return sysman_call_predef_action(PREDEF_INACTIVE, 1, buf); } API int sysman_request_poweroff(void) { return sysman_call_predef_action(PREDEF_PWROFF_POPUP, 0); } API int sysman_request_entersleep(void) { return sysman_call_predef_action(PREDEF_ENTERSLEEP, 0); } API int sysman_request_leavesleep(void) { return sysman_call_predef_action(PREDEF_LEAVESLEEP, 0); } API int sysman_request_reboot(void) { return sysman_call_predef_action(PREDEF_REBOOT, 0); } API int sysman_set_datetime(time_t timet) { if (timet < 0L) return -1; char buf[255] = { 0 }; snprintf(buf, sizeof(buf), "%ld", timet); return sysman_call_predef_action(PREDEF_SET_DATETIME, 1, buf); } API int sysman_set_timezone(char *tzpath_str) { if (tzpath_str == NULL) return -1; char buf[255]; snprintf(buf, sizeof(buf), "%s", tzpath_str); return sysman_call_predef_action(PREDEF_SET_TIMEZONE, 1, buf); } static int sysnoti_mount_mmc_cb(keynode_t *key_nodes, void *data) { struct mmc_contents *mmc_data; mmc_data = (struct mmc_contents *)data; DBG("mountmmc_cb called"); if (vconf_keynode_get_int(key_nodes) == VCONFKEY_SYSMAN_MMC_MOUNT_COMPLETED) { DBG("mount ok"); (mmc_data->mmc_cb)(0, mmc_data->user_data); } else if (vconf_keynode_get_int(key_nodes) == VCONFKEY_SYSMAN_MMC_MOUNT_ALREADY) { DBG("mount already"); (mmc_data->mmc_cb)(-2, mmc_data->user_data); } else { DBG("mount fail"); (mmc_data->mmc_cb)(-1, mmc_data->user_data); } vconf_ignore_key_changed(VCONFKEY_SYSMAN_MMC_MOUNT, (void *)sysnoti_mount_mmc_cb); return 0; } API int sysman_request_mount_mmc(struct mmc_contents *mmc_data) { if (mmc_data != NULL && mmc_data->mmc_cb != NULL) vconf_notify_key_changed(VCONFKEY_SYSMAN_MMC_MOUNT, (void *)sysnoti_mount_mmc_cb, (void *)mmc_data); return sysman_call_predef_action(PREDEF_MOUNT_MMC, 0); } static int sysnoti_unmount_mmc_cb(keynode_t *key_nodes, void *data) { struct mmc_contents *mmc_data; mmc_data = (struct mmc_contents *)data; DBG("unmountmmc_cb called"); if (vconf_keynode_get_int(key_nodes) == VCONFKEY_SYSMAN_MMC_UNMOUNT_COMPLETED) { DBG("unmount ok"); (mmc_data->mmc_cb)(0, mmc_data->user_data); } else { DBG("unmount fail"); (mmc_data->mmc_cb)(-1, mmc_data->user_data); } vconf_ignore_key_changed(VCONFKEY_SYSMAN_MMC_UNMOUNT, (void *)sysnoti_unmount_mmc_cb); return 0; } API int sysman_request_unmount_mmc(struct mmc_contents *mmc_data, int option) { char buf[255]; if (option != 1 && option != 2) { DBG("option is wrong. default option 1 will be used"); option = 1; } snprintf(buf, sizeof(buf), "%d", option); if (mmc_data != NULL && mmc_data->mmc_cb != NULL) vconf_notify_key_changed(VCONFKEY_SYSMAN_MMC_UNMOUNT, (void *)sysnoti_unmount_mmc_cb, (void *)mmc_data); return sysman_call_predef_action(PREDEF_UNMOUNT_MMC, 1, buf); } static int sysnoti_format_mmc_cb(keynode_t *key_nodes, void *data) { struct mmc_contents *mmc_data; mmc_data = (struct mmc_contents *)data; DBG("format_cb called"); if (vconf_keynode_get_int(key_nodes) == VCONFKEY_SYSMAN_MMC_FORMAT_COMPLETED) { DBG("format ok"); (mmc_data->mmc_cb)(0, mmc_data->user_data); } else { DBG("format fail"); (mmc_data->mmc_cb)(-1, mmc_data->user_data); } vconf_ignore_key_changed(VCONFKEY_SYSMAN_MMC_FORMAT, (void *)sysnoti_format_mmc_cb); return 0; } API int sysman_request_format_mmc(struct mmc_contents *mmc_data) { if (mmc_data != NULL && mmc_data->mmc_cb != NULL) vconf_notify_key_changed(VCONFKEY_SYSMAN_MMC_FORMAT, (void *)sysnoti_format_mmc_cb, (void *)mmc_data); return sysman_call_predef_action(PREDEF_FORMAT_MMC, 0); } API int sysman_request_set_cpu_max_frequency(int val) { char buf_pid[8]; char buf_freq[256]; // to do - need to check new frequncy is valid snprintf(buf_pid, sizeof(buf_pid), "%d", getpid()); snprintf(buf_freq, sizeof(buf_freq), "%d", val * 1000); return sysman_call_predef_action(PREDEF_SET_MAX_FREQUENCY, 2, buf_pid, buf_freq); } API int sysman_request_set_cpu_min_frequency(int val) { char buf_pid[8]; char buf_freq[256]; // to do - need to check new frequncy is valid snprintf(buf_pid, sizeof(buf_pid), "%d", getpid()); snprintf(buf_freq, sizeof(buf_freq), "%d", val * 1000); return sysman_call_predef_action(PREDEF_SET_MIN_FREQUENCY, 2, buf_pid, buf_freq); } API int sysman_release_cpu_max_frequency() { char buf_pid[8]; snprintf(buf_pid, sizeof(buf_pid), "%d", getpid()); return sysman_call_predef_action(PREDEF_RELEASE_MAX_FREQUENCY, 1, buf_pid); } API int sysman_release_cpu_min_frequency() { char buf_pid[8]; snprintf(buf_pid, sizeof(buf_pid), "%d", getpid()); return sysman_call_predef_action(PREDEF_RELEASE_MIN_FREQUENCY, 1, buf_pid); }