/*
* Copyright (c) 2021 Huawei Device Co., Ltd.
* 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 <ctype.h>
#include "init_param.h"
#include "init_service_manager.h"
#include "init_utils.h"
#include "param_manager.h"
#include "param_message.h"
#include "param_utils.h"
#include "trigger_checker.h"
#include "trigger_manager.h"
#include "securec.h"
#include "hookmgr.h"
#include "bootstage.h"
#define MAX_TRIGGER_COUNT_RUN_ONCE 20
#define MAX_TRIGGER_NAME_LENGTH 256
static TriggerWorkSpace g_triggerWorkSpace = {};
static int DoTriggerExecute_(const TriggerNode *trigger, const char *content, uint32_t size)
{
PARAM_CHECK(trigger != NULL, return -1, "Invalid trigger");
PARAM_LOGV("Do execute trigger %s type: %d", GetTriggerName(trigger), trigger->type);
PARAM_CHECK(trigger->type <= TRIGGER_UNKNOW, return -1, "Invalid trigger type %d", trigger->type);
CommandNode *cmd = GetNextCmdNode((JobNode *)trigger, NULL);
while (cmd != NULL) {
#ifndef STARTUP_INIT_TEST
DoCmdByIndex(cmd->cmdKeyIndex, cmd->content, &cmd->cfgContext);
#endif
cmd = GetNextCmdNode((JobNode *)trigger, cmd);
}
return 0;
}
static int DoTriggerCheckResult(TriggerNode *trigger, const char *content, uint32_t size)
{
UNUSED(content);
UNUSED(size);
if (TRIGGER_IN_QUEUE(trigger)) {
PARAM_LOGI("DoTiggerExecute trigger %s has been waiting execute", GetTriggerName(trigger));
return 0;
}
TRIGGER_SET_FLAG(trigger, TRIGGER_FLAGS_QUEUE);
PARAM_LOGV("Add trigger %s to execute queue", GetTriggerName(trigger));
ExecuteQueuePush(&g_triggerWorkSpace, trigger);
return 0;
}
static int ExecuteTriggerImmediately(TriggerNode *trigger, const char *content, uint32_t size)
{
PARAM_CHECK(trigger != NULL, return -1, "Invalid trigger");
PARAM_LOGV("ExecuteTriggerImmediately trigger %s", GetTriggerName(trigger));
TriggerHeader *triggerHead = GetTriggerHeader(&g_triggerWorkSpace, trigger->type);
if (triggerHead != NULL) {
triggerHead->executeTrigger(trigger, content, size);
TRIGGER_CLEAR_FLAG(trigger, TRIGGER_FLAGS_QUEUE);
if (TRIGGER_TEST_FLAG(trigger, TRIGGER_FLAGS_ONCE)) {
FreeTrigger(&g_triggerWorkSpace, trigger);
}
}
return 0;
}
static void StartTriggerExecute_(TriggerNode *trigger, const char *content, uint32_t size)
{
TriggerHeader *triggerHead = GetTriggerHeader(&g_triggerWorkSpace, trigger->type);
if (triggerHead != NULL) {
PARAM_LOGV("StartTriggerExecute_ trigger %s flags:0x%04x",
GetTriggerName(trigger), trigger->flags);
triggerHead->executeTrigger(trigger, content, size);
TRIGGER_CLEAR_FLAG(trigger, TRIGGER_FLAGS_QUEUE);
if (TRIGGER_TEST_FLAG(trigger, TRIGGER_FLAGS_SUBTRIGGER)) { // boot && xxx=xxx trigger
const char *condition = triggerHead->getCondition(trigger);
CheckTrigger(&g_triggerWorkSpace, TRIGGER_UNKNOW, condition, strlen(condition), ExecuteTriggerImmediately);
}
if (TRIGGER_TEST_FLAG(trigger, TRIGGER_FLAGS_ONCE)) {
FreeTrigger(&g_triggerWorkSpace, trigger);
}
}
}
static void ExecuteQueueWork(uint32_t maxCount, void (*bootStateChange)(int start, const char *))
{
uint32_t executeCount = 0;
TriggerNode *trigger = ExecuteQueuePop(&g_triggerWorkSpace);
char triggerName[MAX_TRIGGER_NAME_LENGTH] = {0};
while (trigger != NULL) {
int ret = strcpy_s(triggerName, sizeof(triggerName), GetTriggerName(trigger));
PARAM_CHECK(ret == 0, return, "strcpy triggerName failed!");
if (bootStateChange != NULL) {
bootStateChange(0, triggerName);
}
StartTriggerExecute_(trigger, NULL, 0);
if (bootStateChange != NULL) {
bootStateChange(1, triggerName);
}
executeCount++;
if (executeCount > maxCount) {
break;
}
trigger = ExecuteQueuePop(&g_triggerWorkSpace);
}
}
PARAM_STATIC void ProcessBeforeEvent(const ParamTaskPtr stream,
uint64_t eventId, const uint8_t *content, uint32_t size)
{
PARAM_LOGV("ProcessBeforeEvent %s ", (char *)content);
switch (eventId) {
case EVENT_TRIGGER_PARAM: {
CheckTrigger(&g_triggerWorkSpace, TRIGGER_PARAM,
(const char *)content, size, DoTriggerCheckResult);
ExecuteQueueWork(MAX_TRIGGER_COUNT_RUN_ONCE, NULL);
break;
}
case EVENT_TRIGGER_BOOT: {
if (g_triggerWorkSpace.bootStateChange != NULL) {
g_triggerWorkSpace.bootStateChange(0, (const char *)content);
}
CheckTrigger(&g_triggerWorkSpace, TRIGGER_BOOT,
(const char *)content, size, DoTriggerCheckResult);
ExecuteQueueWork(1, NULL);
if (g_triggerWorkSpace.bootStateChange != NULL) {
g_triggerWorkSpace.bootStateChange(1, (const char *)content);
}
ExecuteQueueWork(MAX_TRIGGER_COUNT_RUN_ONCE, g_triggerWorkSpace.bootStateChange);
break;
}
case EVENT_TRIGGER_PARAM_WAIT: {
CheckTrigger(&g_triggerWorkSpace, TRIGGER_PARAM_WAIT,
(const char *)content, size, ExecuteTriggerImmediately);
break;
}
case EVENT_TRIGGER_PARAM_WATCH: {
CheckTrigger(&g_triggerWorkSpace, TRIGGER_PARAM_WATCH,
(const char *)content, size, ExecuteTriggerImmediately);
break;
}
default:
break;
}
}
static void SendTriggerEvent(int type, const char *content, uint32_t contentLen)
{
PARAM_CHECK(content != NULL, return, "Invalid param");
PARAM_LOGV("SendTriggerEvent type %d content %s", type, content);
ParamEventSend(g_triggerWorkSpace.eventHandle, (uint64_t)type, content, contentLen);
}
void PostParamTrigger(int type, const char *name, const char *value)
{
PARAM_CHECK(name != NULL && value != NULL, return, "Invalid param");
uint32_t bufferSize = strlen(name) + strlen(value) + 1 + 1 + 1;
PARAM_CHECK(bufferSize < (PARAM_CONST_VALUE_LEN_MAX + PARAM_NAME_LEN_MAX + 1 + 1 + 1),
return, "bufferSize is longest %d", bufferSize);
char *buffer = (char *)calloc(1, bufferSize);
PARAM_CHECK(buffer != NULL, return, "Failed to alloc memory for param %s", name);
int ret = sprintf_s(buffer, bufferSize - 1, "%s=%s", name, value);
PARAM_CHECK(ret > EOK, free(buffer);
return, "Failed to copy param");
SendTriggerEvent(type, buffer, strlen(buffer));
free(buffer);
}
void PostTrigger(EventType type, const char *content, uint32_t contentLen)
{
PARAM_CHECK(content != NULL && contentLen > 0, return, "Invalid param");
SendTriggerEvent(type, content, contentLen);
}
static int GetTriggerType(const char *type)
{
if (strncmp("param:", type, strlen("param:")) == 0) {
return TRIGGER_PARAM;
}
if (strncmp("boot-service:", type, strlen("boot-service:")) == 0) {
return TRIGGER_BOOT;
}
const char *triggerTypeStr[] = {
"pre-init", "boot", "early-init", "init", "early-init", "late-init", "post-init",
"fs", "early-fs", "post-fs", "late-fs", "early-boot", "post-fs-data", "reboot", "suspend"
};
for (size_t i = 0; i < ARRAY_LENGTH(triggerTypeStr); i++) {
if (strcmp(triggerTypeStr[i], type) == 0) {
return TRIGGER_BOOT;
}
}
return TRIGGER_UNKNOW;
}
static int GetCommandInfo(const char *cmdLine, int *cmdKeyIndex, char **content)
{
const char *matchCmd = GetMatchCmd(cmdLine, cmdKeyIndex);
PARAM_CHECK(matchCmd != NULL, return -1, "Command not support %s", cmdLine);
char *str = strstr(cmdLine, matchCmd);
if (str != NULL) {
str += strlen(matchCmd);
}
while (str != NULL && isspace(*str)) {
str++;
}
*content = str;
return 0;
}
static void ParseJobHookExecute(const char *name, const cJSON *jobNode)
{
JOB_PARSE_CTX context;
context.jobName = name;
context.jobNode = jobNode;
(void)HookMgrExecute(GetBootStageHookMgr(), INIT_JOB_PARSE, (void *)(&context), NULL);
}
static int ParseTrigger_(const TriggerWorkSpace *workSpace,
const cJSON *triggerItem, int (*checkJobValid)(const char *jobName), const ConfigContext *cfgContext)
{
PARAM_CHECK(triggerItem != NULL, return -1, "Invalid file");
PARAM_CHECK(workSpace != NULL, return -1, "Failed to create trigger list");
char *name = cJSON_GetStringValue(cJSON_GetObjectItem(triggerItem, "name"));
PARAM_CHECK(name != NULL, return -1, "Can not get name from cfg");
char *condition = cJSON_GetStringValue(cJSON_GetObjectItem(triggerItem, "condition"));
int type = GetTriggerType(name);
PARAM_CHECK(type <= TRIGGER_UNKNOW, return -1, "Failed to get trigger index");
if (type != TRIGGER_BOOT && checkJobValid != NULL && checkJobValid(name) != 0) {
PARAM_LOGI("Trigger %s not exist in group", name);
return 0;
}
TriggerHeader *header = GetTriggerHeader(workSpace, type);
PARAM_CHECK(header != NULL, return -1, "Failed to get header %d", type);
JobNode *trigger = UpdateJobTrigger(workSpace, type, condition, name);
PARAM_CHECK(trigger != NULL, return -1, "Failed to create trigger %s", name);
PARAM_LOGV("ParseTrigger %s type %d count %d", name, type, header->triggerCount);
cJSON *cmdItems = cJSON_GetObjectItem(triggerItem, CMDS_ARR_NAME_IN_JSON);
if (cmdItems == NULL || !cJSON_IsArray(cmdItems)) {
return 0;
}
int cmdLinesCnt = cJSON_GetArraySize(cmdItems);
PARAM_CHECK(cmdLinesCnt > 0, return -1, "Command array size must positive %s", name);
int ret;
int cmdKeyIndex = 0;
for (int i = 0; (i < cmdLinesCnt) && (i < TRIGGER_MAX_CMD); ++i) {
char *cmdLineStr = cJSON_GetStringValue(cJSON_GetArrayItem(cmdItems, i));
PARAM_CHECK(cmdLineStr != NULL, continue, "Command is null");
char *content = NULL;
ret = GetCommandInfo(cmdLineStr, &cmdKeyIndex, &content);
PARAM_CHECK(ret == 0, continue, "Command not support %s", cmdLineStr);
ret = AddCommand(trigger, (uint32_t)cmdKeyIndex, content, cfgContext);
PARAM_CHECK(ret == 0, continue, "Failed to add command %s", cmdLineStr);
header->cmdNodeCount++;
}
return 0;
}
int ParseTriggerConfig(const cJSON *fileRoot, int (*checkJobValid)(const char *jobName), void *context)
{
PARAM_CHECK(g_triggerWorkSpace.eventHandle != NULL, return -1, "Invalid trigger data");
PARAM_CHECK(fileRoot != NULL, return -1, "Invalid file");
ConfigContext *cfgContext = (ConfigContext *)context;
cJSON *triggers = cJSON_GetObjectItemCaseSensitive(fileRoot, TRIGGER_ARR_NAME_IN_JSON);
if (triggers == NULL || !cJSON_IsArray(triggers)) {
return 0;
}
int size = cJSON_GetArraySize(triggers);
PARAM_CHECK(size > 0, return -1, "Trigger array size must positive");
for (int i = 0; i < size && i < TRIGGER_MAX_CMD; ++i) {
cJSON *item = cJSON_GetArrayItem(triggers, i);
ParseTrigger_(&g_triggerWorkSpace, item, checkJobValid, cfgContext);
/*
* execute job parsing hooks
*/
ParseJobHookExecute(cJSON_GetStringValue(cJSON_GetObjectItem(item, "name")), item);
}
return 0;
}
int CheckAndMarkTrigger(int type, const char *name)
{
TriggerHeader *triggerHead = GetTriggerHeader(&g_triggerWorkSpace, type);
if (triggerHead) {
return triggerHead->checkAndMarkTrigger(&g_triggerWorkSpace, type, name);
}
return 0;
}
int InitTriggerWorkSpace(void)
{
if (g_triggerWorkSpace.eventHandle != NULL) {
return 0;
}
g_triggerWorkSpace.bootStateChange = NULL;
ParamEventTaskCreate(&g_triggerWorkSpace.eventHandle, ProcessBeforeEvent);
PARAM_CHECK(g_triggerWorkSpace.eventHandle != NULL, return -1, "Failed to event handle");
// executeQueue
g_triggerWorkSpace.executeQueue.executeQueue = calloc(1, TRIGGER_EXECUTE_QUEUE * sizeof(TriggerNode *));
PARAM_CHECK(g_triggerWorkSpace.executeQueue.executeQueue != NULL,
return -1, "Failed to alloc memory for executeQueue");
g_triggerWorkSpace.executeQueue.queueCount = TRIGGER_EXECUTE_QUEUE;
g_triggerWorkSpace.executeQueue.startIndex = 0;
g_triggerWorkSpace.executeQueue.endIndex = 0;
InitTriggerHead(&g_triggerWorkSpace);
RegisterTriggerExec(TRIGGER_BOOT, DoTriggerExecute_);
RegisterTriggerExec(TRIGGER_PARAM, DoTriggerExecute_);
RegisterTriggerExec(TRIGGER_UNKNOW, DoTriggerExecute_);
PARAM_LOGV("InitTriggerWorkSpace success");
return 0;
}
void CloseTriggerWorkSpace(void)
{
for (size_t i = 0; i < sizeof(g_triggerWorkSpace.triggerHead) / sizeof(g_triggerWorkSpace.triggerHead[0]); i++) {
ClearTrigger(&g_triggerWorkSpace, i);
}
OH_HashMapDestory(g_triggerWorkSpace.hashMap, NULL);
g_triggerWorkSpace.hashMap = NULL;
free(g_triggerWorkSpace.executeQueue.executeQueue);
g_triggerWorkSpace.executeQueue.executeQueue = NULL;
ParamTaskClose(g_triggerWorkSpace.eventHandle);
g_triggerWorkSpace.eventHandle = NULL;
}
TriggerWorkSpace *GetTriggerWorkSpace(void)
{
return &g_triggerWorkSpace;
}
void RegisterTriggerExec(int type,
int32_t (*executeTrigger)(const struct tagTriggerNode_ *, const char *, uint32_t))
{
TriggerHeader *triggerHead = GetTriggerHeader(&g_triggerWorkSpace, type);
if (triggerHead != NULL) {
triggerHead->executeTrigger = executeTrigger;
}
}
void DoTriggerExec(const char *triggerName)
{
PARAM_CHECK(g_triggerWorkSpace.eventHandle != NULL, return, "Invalid trigger data");
PARAM_CHECK(triggerName != NULL, return, "Invalid param");
JobNode *trigger = GetTriggerByName(&g_triggerWorkSpace, triggerName);
if (trigger != NULL && !TRIGGER_IN_QUEUE((TriggerNode *)trigger)) {
PARAM_LOGV("Trigger job %s", trigger->name);
TRIGGER_SET_FLAG((TriggerNode *)trigger, TRIGGER_FLAGS_QUEUE);
ExecuteQueuePush(&g_triggerWorkSpace, (TriggerNode *)trigger);
} else {
PARAM_LOGW("Can not find trigger %s", triggerName);
}
}
void DoJobExecNow(const char *triggerName)
{
PARAM_CHECK(g_triggerWorkSpace.eventHandle != NULL, return, "Invalid trigger data");
PARAM_CHECK(triggerName != NULL, return, "Invalid param");
JobNode *trigger = GetTriggerByName(&g_triggerWorkSpace, triggerName);
if (trigger != NULL) {
if (strncmp(triggerName, "reboot", strlen("reboot")) == 0) {
HookMgrExecute(GetBootStageHookMgr(), INIT_SHUT_DETECTOR, NULL, NULL);
}
StartTriggerExecute_((TriggerNode *)trigger, NULL, 0);
}
}
int AddCompleteJob(const char *name, const char *condition, const char *cmdContent)
{
PARAM_CHECK(g_triggerWorkSpace.eventHandle != NULL, return -1, "Invalid trigger data");
PARAM_CHECK(name != NULL, return -1, "Invalid name");
PARAM_CHECK(cmdContent != NULL, return -1, "Invalid cmdContent");
int type = GetTriggerType(name);
PARAM_CHECK(type <= TRIGGER_UNKNOW, return -1, "Failed to get trigger index");
TriggerHeader *header = GetTriggerHeader(&g_triggerWorkSpace, type);
PARAM_CHECK(header != NULL, return -1, "Failed to get header %d", type);
JobNode *trigger = UpdateJobTrigger(&g_triggerWorkSpace, type, condition, name);
PARAM_CHECK(trigger != NULL, return -1, "Failed to create trigger");
char *content = NULL;
int cmdKeyIndex = 0;
int ret = GetCommandInfo(cmdContent, &cmdKeyIndex, &content);
PARAM_CHECK(ret == 0, return -1, "Command not support %s", cmdContent);
ret = AddCommand(trigger, (uint32_t)cmdKeyIndex, content, NULL); // use default context
PARAM_CHECK(ret == 0, return -1, "Failed to add command %s", cmdContent);
header->cmdNodeCount++;
PARAM_LOGV("AddCompleteJob %s type %d count %d", name, type, header->triggerCount);
return 0;
}
void RegisterBootStateChange(void (*bootStateChange)(int, const char *))
{
if (bootStateChange != NULL) {
g_triggerWorkSpace.bootStateChange = bootStateChange;
}
}