/* * Client-side Local Resource Manager API. * * Author: Huang Zhen * Copyright (C) 2004 International Business Machines * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * */ /* * * By Huang Zhen 2004/2/23 * * It is based on the works of Alan Robertson, Lars Marowsky Bree, * Andrew Beekhof. * * The Local Resource Manager needs to provide the following functionalities: * 1. Provide the information of the resources holding by the node to its * clients, including listing the resources and their status. * 2. Its clients can add new resources to lrm or remove from it. * 3. Its clients can ask lrm to operate the resources, including start, * restart, stop and so on. * 4. Provide the information of the lrm itself, including what types of * resource are supporting by lrm. * * The typical clients of lrm are crm and lrmadmin. */ /* * Notice: * "status" indicates the exit status code of "status" operation * its value is defined in LSB, OCF... * * "state" indicates the state of resource, maybe LRM_RSC_BUSY, LRM_RSC_IDLE * * "op_status" indicates how the op exit. like LRM_OP_DONE,LRM_OP_CANCELLED, * LRM_OP_TIMEOUT,LRM_OP_NOTSUPPORTED. * * "rc" is the return code of an opertioan. it's value is in following enum * which is defined in "raexec.h" * enum UNIFORM_RET_EXECRA { * EXECRA_EXEC_UNKNOWN_ERROR = -2, * EXECRA_NO_RA = -1, * EXECRA_OK = 0, * EXECRA_UNKNOWN_ERROR = 1, * EXECRA_INVALID_PARAM = 2, * EXECRA_UNIMPLEMENT_FEATURE = 3, * EXECRA_INSUFFICIENT_PRIV = 4, * EXECRA_NOT_INSTALLED = 5, * EXECRA_NOT_CONFIGURED = 6, * EXECRA_NOT_RUNNING = 7, * * EXECRA_RA_DEAMON_DEAD1 = 11, * EXECRA_RA_DEAMON_DEAD2 = 12, * EXECRA_RA_DEAMON_STOPPED = 13, * EXECRA_STATUS_UNKNOWN = 14 * }; */ #ifndef __LRM_API_H #define __LRM_API_H 1 #include #include #include #define LRM_PROTOCOL_MAJOR 0 #define LRM_PROTOCOL_MINOR 1 #define LRM_PROTOCOL_VERSION ((LRM_PROTCOL_MAJOR << 16) | LRM_PROTOCOL_MINOR) #define RID_LEN 128 /*lrm's client uses this structure to access the resource*/ typedef struct { char* id; char* type; char* class; char* provider; GHashTable* params; struct rsc_ops* ops; }lrm_rsc_t; /*used in struct lrm_op_t to show how an operation exits*/ typedef enum { LRM_OP_PENDING = -1, LRM_OP_DONE, LRM_OP_CANCELLED, LRM_OP_TIMEOUT, LRM_OP_NOTSUPPORTED, LRM_OP_ERROR }op_status_t; /*for all timeouts: in milliseconds. 0 for no timeout*/ /*this structure is the information of the operation.*/ #define EVERYTIME -1 #define CHANGED -2 /* Notice the interval and target_rc * * when interval==0, the operation will be executed only once * when interval>0, the operation will be executed repeatly with the interval * * when target_rc==EVERYTIME, the client will be notified every time the * operation executed. * when target_rc==CHANGED, the client will be notified when the return code * is different with the return code of last execute of the operation * when target_rc is other value, only when the return code is the same of * target_rc, the client will be notified. */ typedef struct{ /*input fields*/ char* op_type; GHashTable* params; int timeout; char* user_data; int user_data_len; int interval; int start_delay; int copyparams; /* copy parameters to the rsc */ int target_rc; /*output fields*/ op_status_t op_status; int rc; int call_id; char* output; char* rsc_id; char* app_name; char* fail_reason; unsigned long t_run; /* when did the op run (as age) */ unsigned long t_rcchange; /* last rc change (as age) */ unsigned long exec_time; /* time it took the op to run */ unsigned long queue_time; /* time spent in queue */ int rsc_deleted; /* resource just deleted? */ }lrm_op_t; extern const lrm_op_t lrm_zero_op; /* an all-zeroes lrm_op_t value */ lrm_op_t* lrm_op_new(void); void lrm_free_op(lrm_op_t* op); void lrm_free_rsc(lrm_rsc_t* rsc); void lrm_free_str_list(GList* list); void lrm_free_op_list(GList* list); void lrm_free_str_table(GHashTable* table); /*this enum is used in get_cur_state*/ typedef enum { LRM_RSC_IDLE, LRM_RSC_BUSY }state_flag_t; /* defaults for the asynchronous resource failures */ enum { DEFAULT_FAIL_RC = EXECRA_UNKNOWN_ERROR }; #define DEFAULT_FAIL_REASON "asynchronous monitor error" #define ASYNC_OP_NAME "asyncmon" /* in addition to HA_OK and HA_FAIL */ #define HA_RSCBUSY 2 struct rsc_ops { /* *perform_op: Performs the operation on the resource. *Notice: op is the operation which need to pass to RA and done asyn * *op: the structure of the operation. Caller can create the op by * lrm_op_new() and release the op using lrm_free_op() * *return: All operations will be asynchronous. * The call will return the call id or failed code immediately. * The call id will be passed to the callback function * when the operation finished later. */ int (*perform_op) (lrm_rsc_t*, lrm_op_t* op); /* *cancel_op: cancel the operation on the resource. * *callid: the call id returned by perform_op() * *return: HA_OK for success, HA_FAIL for failure op not found * or other failure * NB: the client always gets a notification over callback * even for operations which were idle (of course, if * the request has been accepted for processing) */ int (*cancel_op) (lrm_rsc_t*, int call_id); /* *flush_ops: throw away all operations queued for this resource, * and return them as cancelled. * *return: HA_OK for success, HA_FAIL for failure * NB: op is not flushed unless it is idle; * in that case this call will block */ int (*flush_ops) (lrm_rsc_t*); /* *get_cur_state: * return the current state of the resource * *cur_state: current state of the resource * *return: cur_state should be in LRM_RSC_IDLE or LRM_RSC_BUSY. * and the function returns a list of ops. * the list includes: * 1. last ops for each type (start/stop/etc) from current client * 2. current pending ops * 3. all recurring ops waiting to execute * the list is sorted by the call_id of ops. * client can release the list using lrm_free_op_list() */ GList* (*get_cur_state) (lrm_rsc_t*, state_flag_t* cur_state); /* *get_last_result: * return the last op of given type from current client * *op_type: the given type * *return: the last op. if there is no such op, return NULL. * client can release the op using lrm_free_op() */ lrm_op_t* (*get_last_result)(lrm_rsc_t*, const char *op_type); }; /* *lrm_op_done_callback_t: * this type of callback functions are called when some * asynchronous operation is done. * client can release op by lrm_free_op() */ typedef void (*lrm_op_done_callback_t) (lrm_op_t* op); typedef struct ll_lrm { struct lrm_ops* lrm_ops; }ll_lrm_t; struct lrm_ops { int (*signon) (ll_lrm_t*, const char * app_name); int (*signoff) (ll_lrm_t*); int (*delete) (ll_lrm_t*); int (*set_lrm_callback) (ll_lrm_t*, lrm_op_done_callback_t op_done_callback_func); /* *set_lrmd_param: set lrmd parameter *get_lrmd_param: get lrmd parameter * *return: HA_OK for success, HA_FAIL for failure * NB: currently used only for max_child_count */ int (*set_lrmd_param)(ll_lrm_t*, const char *name, const char *value); char* (*get_lrmd_param)(ll_lrm_t*, const char *name); /* int (*set_parameters)(ll_lrm_t*, const GHashTable* option); GHashTable* (*get_all_parameters)(ll_lrm_t*); char * (*get_parameter)(ll_lrm_t *, const char * paramname); char * (*get_parameter_description)(ll_lrm_t*); */ /* *get_rsc_class_supported: * Returns the resource classes supported. * e.g. ocf, heartbeat,lsb... * *return: a list of the names of supported resource classes. * caller can release the list by lrm_free_str_list(). */ GList* (*get_rsc_class_supported)(ll_lrm_t*); /* *get_rsc_type_supported: * Returns the resource types supported of class rsc_class. * e.g. drdb, apache,IPaddr... * *return: a list of the names of supported resource types. * caller can release the list by lrm_free_str_list(). */ GList* (*get_rsc_type_supported)(ll_lrm_t*, const char* rsc_class); /* *get_rsc_provider_supported: * Returns the provider list of the given resource types * e.g. heartbeat, failsafe... * *rsc_provider: if it is null, the default one will used. * *return: a list of the names of supported resource provider. * caller can release the list by lrm_free_str_list(). */ GList* (*get_rsc_provider_supported)(ll_lrm_t*, const char* rsc_class, const char* rsc_type); /* *get_rsc_type_metadata: * Returns the metadata of the resource type * *rsc_provider: if it is null, the default one will used. * *return: the metadata. use g_free() to free. * */ char* (*get_rsc_type_metadata)(ll_lrm_t*, const char* rsc_class, const char* rsc_type, const char* rsc_provider); /* *get_all_type_metadatas: * Returns all the metadata of the resource type of the class * *return: A GHashtable, the key is the RA type, * the value is the metadata. * Now only default RA's metadata will be returned. * please use lrm_free_str_table() to free the return value. */ GHashTable* (*get_all_type_metadata)(ll_lrm_t*, const char* rsc_class); /* *get_all_rscs: * Returns all resources. * *return: a list of id of resources. * caller can release the list by lrm_free_str_list(). */ GList* (*get_all_rscs)(ll_lrm_t*); /* *get_rsc: Gets one resource pointer by the id * *return: the lrm_rsc_t type pointer, NULL for failure * caller can release the pointer by lrm_free_rsc(). */ lrm_rsc_t* (*get_rsc)(ll_lrm_t*, const char* rsc_id); /* *add_rsc: Adds a new resource to lrm. * lrmd holds nothing when it starts. * crm or lrmadmin should add resources to lrm using * this function. * *rsc_id: An id which sould be generated by client, * 128byte(include '\0') UTF8 string * *class: the class of the resource * *type: the type of the resource. * *rsc_provider: if it is null, the default provider will used. * *params: the parameters for the resource. * *return: HA_OK for success, HA_FAIL for failure */ int (*add_rsc)(ll_lrm_t*, const char* rsc_id, const char* class, const char* type, const char* provider, GHashTable* params); /* *delete_rsc: delete the resource by the rsc_id * *return: HA_OK for success, HA_FAIL for failure * NB: resource removal is delayed until all operations are * removed; the client, however, gets the reply immediately */ int (*delete_rsc)(ll_lrm_t*, const char* rsc_id); /* *fail_rsc: fail a resource * Allow asynchronous monitor failures. Notifies all clients * which have operations defined for the resource. * The fail_rc parameter should be set to one of the OCF * return codes (if non-positive it defaults to * OCF_ERR_GENERIC). The fail_reason parameter should * contain the description of the failure (i.e. "daemon * panicked" or similar). If NULL is passed or empty string, * it defaults to "asynchronous monitor failure". * *return: HA_OK for success, HA_FAIL for failure */ int (*fail_rsc)(ll_lrm_t* lrm, const char* rsc_id, const int fail_rc, const char* fail_reason); /* *ipcchan: Return the IPC channel which can be used for determining * when messages are ready to be read. *return: the IPC Channel */ IPC_Channel* (*ipcchan)(ll_lrm_t*); /* *msgready: Returns TRUE (1) when a message is ready to be read. */ gboolean (*msgready)(ll_lrm_t*); /* *rcvmsg: Cause the next message to be read - activating callbacks for * processing the message. If no callback processes the message * it will be ignored. The message is automatically disposed of. * *return: the count of message was received. */ int (*rcvmsg)(ll_lrm_t*, int blocking); }; /* *ll_lrm_new: * initializes the lrm client library. * *llctype: "lrm" * */ ll_lrm_t* ll_lrm_new(const char * llctype); /* *execra_code2string: * Translate the return code of the operation to string * *code: the rc field in lrm_op_t structure */ const char *execra_code2string(uniform_ret_execra_t code); #endif /* __LRM_API_H */