diff --git a/include/crm/common/results.h b/include/crm/common/results.h index cadebefacd..188c3c08cd 100644 --- a/include/crm/common/results.h +++ b/include/crm/common/results.h @@ -1,345 +1,345 @@ /* * Copyright 2012-2021 the Pacemaker project contributors * * The version control history for this file may have further details. * * This source code is licensed under the GNU Lesser General Public License * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY. */ #ifndef CRM_RESULTS__H # define CRM_RESULTS__H #ifdef __cplusplus extern "C" { #endif /*! * \file * \brief Function and executable result codes * \ingroup core */ // Lifted from config.h /* The _Noreturn keyword of C11. */ #ifndef _Noreturn # if (defined __cplusplus \ && ((201103 <= __cplusplus && !(__GNUC__ == 4 && __GNUC_MINOR__ == 7)) \ || (defined _MSC_VER && 1900 <= _MSC_VER))) # define _Noreturn [[noreturn]] # elif ((!defined __cplusplus || defined __clang__) \ && (201112 <= (defined __STDC_VERSION__ ? __STDC_VERSION__ : 0) \ || 4 < __GNUC__ + (7 <= __GNUC_MINOR__))) /* _Noreturn works as-is. */ # elif 2 < __GNUC__ + (8 <= __GNUC_MINOR__) || 0x5110 <= __SUNPRO_C # define _Noreturn __attribute__ ((__noreturn__)) # elif 1200 <= (defined _MSC_VER ? _MSC_VER : 0) # define _Noreturn __declspec (noreturn) # else # define _Noreturn # endif #endif # define CRM_ASSERT(expr) do { \ if (!(expr)) { \ crm_abort(__FILE__, __func__, __LINE__, #expr, TRUE, FALSE); \ abort(); /* crm_abort() doesn't always abort! */ \ } \ } while(0) /* * Function return codes * * Most Pacemaker API functions return an integer return code. There are two * alternative interpretations. The legacy interpration is that the absolute * value of the return code is either a system error number or a custom * pcmk_err_* number. This is less than ideal because system error numbers are * constrained only to the positive int range, so there's the possibility that * system errors and custom errors could collide (which did in fact happen * already on one architecture). The new intepretation is that negative values * are from the pcmk_rc_e enum, and positive values are system error numbers. * Both use 0 for success. * * For system error codes, see: * - /usr/include/asm-generic/errno.h * - /usr/include/asm-generic/errno-base.h */ // Legacy custom return codes for Pacemaker API functions (deprecated) # define pcmk_ok 0 # define PCMK_ERROR_OFFSET 190 /* Replacements on non-linux systems, see include/portability.h */ # define PCMK_CUSTOM_OFFSET 200 /* Purely custom codes */ # define pcmk_err_generic 201 # define pcmk_err_no_quorum 202 # define pcmk_err_schema_validation 203 # define pcmk_err_transform_failed 204 # define pcmk_err_old_data 205 # define pcmk_err_diff_failed 206 # define pcmk_err_diff_resync 207 # define pcmk_err_cib_modified 208 # define pcmk_err_cib_backup 209 # define pcmk_err_cib_save 210 # define pcmk_err_schema_unchanged 211 # define pcmk_err_cib_corrupt 212 # define pcmk_err_multiple 213 # define pcmk_err_node_unknown 214 # define pcmk_err_already 215 /* On HPPA 215 is ENOSYM (Unknown error 215), which hopefully never happens. */ #ifdef __hppa__ # define pcmk_err_bad_nvpair 250 /* 216 is ENOTSOCK */ # define pcmk_err_unknown_format 252 /* 217 is EDESTADDRREQ */ #else # define pcmk_err_bad_nvpair 216 # define pcmk_err_unknown_format 217 #endif /*! * \enum pcmk_rc_e * \brief Return codes for Pacemaker API functions * * Any Pacemaker API function documented as returning a "standard Pacemaker * return code" will return pcmk_rc_ok (0) on success, and one of this * enumeration's other (negative) values or a (positive) system error number * otherwise. The custom codes are at -1001 and lower, so that the caller may * use -1 through -1000 for their own custom values if desired. While generally * referred to as "errors", nonzero values simply indicate a result, which might * or might not be an error depending on the calling context. */ enum pcmk_rc_e { /* When adding new values, use consecutively lower numbers, update the array * in lib/common/results.c, and test with crm_error. */ pcmk_rc_invalid_transition = -1031, pcmk_rc_graph_error = -1030, pcmk_rc_dot_error = -1029, pcmk_rc_underflow = -1028, pcmk_rc_no_input = -1027, pcmk_rc_no_output = -1026, pcmk_rc_after_range = -1025, pcmk_rc_within_range = -1024, pcmk_rc_before_range = -1023, pcmk_rc_undetermined = -1022, pcmk_rc_op_unsatisfied = -1021, pcmk_rc_ipc_pid_only = -1020, pcmk_rc_ipc_unresponsive = -1019, pcmk_rc_ipc_unauthorized = -1018, pcmk_rc_no_quorum = -1017, pcmk_rc_schema_validation = -1016, pcmk_rc_schema_unchanged = -1015, pcmk_rc_transform_failed = -1014, pcmk_rc_old_data = -1013, pcmk_rc_diff_failed = -1012, pcmk_rc_diff_resync = -1011, pcmk_rc_cib_modified = -1010, pcmk_rc_cib_backup = -1009, pcmk_rc_cib_save = -1008, pcmk_rc_cib_corrupt = -1007, pcmk_rc_multiple = -1006, pcmk_rc_node_unknown = -1005, pcmk_rc_already = -1004, pcmk_rc_bad_nvpair = -1003, pcmk_rc_unknown_format = -1002, // Developers: Use a more specific code than pcmk_rc_error whenever possible pcmk_rc_error = -1001, // Values -1 through -1000 reserved for caller use pcmk_rc_ok = 0 // Positive values reserved for system error numbers }; /*! * \enum ocf_exitcode * \brief Exit status codes for resource agents * * The OCF Resource Agent API standard enumerates the possible exit status codes * that agents should return. Pacemaker adds some more to cover problems with * executing the agent, and to use a single set of codes for all agent types. */ enum ocf_exitcode { PCMK_OCF_OK = 0, //!< Success PCMK_OCF_UNKNOWN_ERROR = 1, //!< Unspecified error PCMK_OCF_INVALID_PARAM = 2, //!< Parameter invalid (in local context) PCMK_OCF_UNIMPLEMENT_FEATURE = 3, //!< Requested action not implemented PCMK_OCF_INSUFFICIENT_PRIV = 4, //!< Insufficient privileges PCMK_OCF_NOT_INSTALLED = 5, //!< Dependencies not available locally PCMK_OCF_NOT_CONFIGURED = 6, //!< Parameter invalid (inherently) PCMK_OCF_NOT_RUNNING = 7, //!< Service safely stopped PCMK_OCF_RUNNING_PROMOTED = 8, //!< Service active and promoted PCMK_OCF_FAILED_PROMOTED = 9, //!< Service failed and possibly in promoted role PCMK_OCF_DEGRADED = 190, //!< Service active but more likely to fail soon PCMK_OCF_DEGRADED_PROMOTED = 191, //!< Service promoted but more likely to fail soon // Pacemaker extensions PCMK_OCF_CONNECTION_DIED = 189, //!< \deprecated See PCMK_EXEC_NOT_CONNECTED PCMK_OCF_UNKNOWN = 193, //!< Action is pending - PCMK_OCF_SIGNAL = 194, //!< Agent terminated due to signal PCMK_OCF_PENDING = 196, //!< Multi-stage execution in progress PCMK_OCF_TIMEOUT = 198, //!< Action did not complete in time #if !defined(PCMK_ALLOW_DEPRECATED) || (PCMK_ALLOW_DEPRECATED == 1) // Former Pacemaker extensions PCMK_OCF_EXEC_ERROR = 192, //!< \deprecated (Unused) + PCMK_OCF_SIGNAL = 194, //!< \deprecated (Unused) PCMK_OCF_NOT_SUPPORTED = 195, //!< \deprecated (Unused) PCMK_OCF_CANCELLED = 197, //!< \deprecated (Unused) PCMK_OCF_OTHER_ERROR = 199, //!< \deprecated (Unused) //! \deprecated Use PCMK_OCF_RUNNING_PROMOTED instead PCMK_OCF_RUNNING_MASTER = PCMK_OCF_RUNNING_PROMOTED, //! \deprecated Use PCMK_OCF_FAILED_PROMOTED instead PCMK_OCF_FAILED_MASTER = PCMK_OCF_FAILED_PROMOTED, //! \deprecated Use PCMK_OCF_DEGRADED_PROMOTED instead PCMK_OCF_DEGRADED_MASTER = PCMK_OCF_DEGRADED_PROMOTED, #endif }; /*! * \enum crm_exit_e * \brief Exit status codes for tools and daemons * * We want well-specified (i.e. OS-invariant) exit status codes for our daemons * and applications so they can be relied on by callers. (Function return codes * and errno's do not make good exit statuses.) * * The only hard rule is that exit statuses must be between 0 and 255; all else * is convention. Universally, 0 is success, and 1 is generic error (excluding * OSes we don't support -- for example, OpenVMS considers 1 success!). * * For init scripts, the LSB gives meaning to 0-7, and sets aside 150-199 for * application use. OCF adds 8-9 and 190-191. * * sysexits.h was an attempt to give additional meanings, but never really * caught on. It uses 0 and 64-78. * * Bash reserves 2 ("incorrect builtin usage") and 126-255 (126 is "command * found but not executable", 127 is "command not found", 128 + n is * "interrupted by signal n"). * * tldp.org recommends 64-113 for application use. * * We try to overlap with the above conventions when practical. */ typedef enum crm_exit_e { // Common convention CRM_EX_OK = 0, //!< Success CRM_EX_ERROR = 1, //!< Unspecified error // LSB + OCF CRM_EX_INVALID_PARAM = 2, //!< Parameter invalid (in local context) CRM_EX_UNIMPLEMENT_FEATURE = 3, //!< Requested action not implemented CRM_EX_INSUFFICIENT_PRIV = 4, //!< Insufficient privileges CRM_EX_NOT_INSTALLED = 5, //!< Dependencies not available locally CRM_EX_NOT_CONFIGURED = 6, //!< Parameter invalid (inherently) CRM_EX_NOT_RUNNING = 7, //!< Service safely stopped // sysexits.h CRM_EX_USAGE = 64, //!< Command line usage error CRM_EX_DATAERR = 65, //!< User-supplied data incorrect CRM_EX_NOINPUT = 66, //!< Input file not available CRM_EX_NOUSER = 67, //!< User does not exist CRM_EX_NOHOST = 68, //!< Host unknown CRM_EX_UNAVAILABLE = 69, //!< Needed service unavailable CRM_EX_SOFTWARE = 70, //!< Internal software bug CRM_EX_OSERR = 71, //!< External (OS/environmental) problem CRM_EX_OSFILE = 72, //!< System file not usable CRM_EX_CANTCREAT = 73, //!< File couldn't be created CRM_EX_IOERR = 74, //!< File I/O error CRM_EX_TEMPFAIL = 75, //!< Try again CRM_EX_PROTOCOL = 76, //!< Protocol violated CRM_EX_NOPERM = 77, //!< Non-file permission issue CRM_EX_CONFIG = 78, //!< Misconfiguration // Custom CRM_EX_FATAL = 100, //!< Do not respawn CRM_EX_PANIC = 101, //!< Panic the local host CRM_EX_DISCONNECT = 102, //!< Lost connection to something CRM_EX_OLD = 103, //!< Update older than existing config CRM_EX_DIGEST = 104, //!< Digest comparison failed CRM_EX_NOSUCH = 105, //!< Requested item does not exist CRM_EX_QUORUM = 106, //!< Local partition does not have quorum CRM_EX_UNSAFE = 107, //!< Requires --force or new conditions CRM_EX_EXISTS = 108, //!< Requested item already exists CRM_EX_MULTIPLE = 109, //!< Requested item has multiple matches CRM_EX_EXPIRED = 110, //!< Requested item has expired CRM_EX_NOT_YET_IN_EFFECT = 111, //!< Requested item is not in effect CRM_EX_INDETERMINATE = 112, //!< Could not determine status CRM_EX_UNSATISFIED = 113, //!< Requested item does not satisfy constraints // Other CRM_EX_TIMEOUT = 124, //!< Convention from timeout(1) /* Anything above 128 overlaps with some shells' use of these values for * "interrupted by signal N", and so may be unreliable when detected by * shell scripts. */ // OCF Resource Agent API 1.1 CRM_EX_DEGRADED = 190, //!< Service active but more likely to fail soon CRM_EX_DEGRADED_PROMOTED = 191, //!< Service promoted but more likely to fail soon CRM_EX_MAX = 255, //!< Ensure crm_exit_t can hold this } crm_exit_t; /*! * \enum pcmk_exec_status * \brief Execution status * * These codes are used to specify the result of the attempt to execute an * agent, rather than the agent's result itself. */ enum pcmk_exec_status { PCMK_EXEC_UNKNOWN = -2, //!< Used only to initialize variables PCMK_EXEC_PENDING = -1, //!< Action is in progress PCMK_EXEC_DONE, //!< Action completed, result is known PCMK_EXEC_CANCELLED, //!< Action was cancelled PCMK_EXEC_TIMEOUT, //!< Action did not complete in time PCMK_EXEC_NOT_SUPPORTED, //!< Agent does not implement requested action PCMK_EXEC_ERROR, //!< Execution failed, may be retried PCMK_EXEC_ERROR_HARD, //!< Execution failed, do not retry on node PCMK_EXEC_ERROR_FATAL, //!< Execution failed, do not retry anywhere PCMK_EXEC_NOT_INSTALLED, //!< Agent or dependency not available locally PCMK_EXEC_NOT_CONNECTED, //!< No connection to executor PCMK_EXEC_INVALID, //!< Action cannot be attempted (e.g. shutdown) }; const char *pcmk_rc_name(int rc); const char *pcmk_rc_str(int rc); crm_exit_t pcmk_rc2exitc(int rc); enum ocf_exitcode pcmk_rc2ocf(int rc); int pcmk_rc2legacy(int rc); int pcmk_legacy2rc(int legacy_rc); const char *pcmk_strerror(int rc); const char *pcmk_errorname(int rc); const char *bz2_strerror(int rc); crm_exit_t crm_errno2exit(int rc); const char *crm_exit_name(crm_exit_t exit_code); const char *crm_exit_str(crm_exit_t exit_code); _Noreturn crm_exit_t crm_exit(crm_exit_t rc); static inline const char * pcmk_exec_status_str(enum pcmk_exec_status status) { switch (status) { case PCMK_EXEC_PENDING: return "pending"; case PCMK_EXEC_DONE: return "complete"; case PCMK_EXEC_CANCELLED: return "Cancelled"; case PCMK_EXEC_TIMEOUT: return "Timed Out"; case PCMK_EXEC_NOT_SUPPORTED: return "NOT SUPPORTED"; case PCMK_EXEC_ERROR: return "Error"; case PCMK_EXEC_ERROR_HARD: return "Hard error"; case PCMK_EXEC_ERROR_FATAL: return "Fatal error"; case PCMK_EXEC_NOT_INSTALLED: return "Not installed"; case PCMK_EXEC_NOT_CONNECTED: return "No executor connection"; case PCMK_EXEC_INVALID: return "Cannot execute now"; default: return "UNKNOWN!"; } } #ifdef __cplusplus } #endif #endif diff --git a/include/crm/services.h b/include/crm/services.h index ee91f820b4..0e4cbb1242 100644 --- a/include/crm/services.h +++ b/include/crm/services.h @@ -1,375 +1,375 @@ /* * Copyright 2010-2021 the Pacemaker project contributors * * The version control history for this file may have further details. * * This source code is licensed under the GNU Lesser General Public License * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY. */ #ifndef __PCMK_SERVICES__ # define __PCMK_SERVICES__ #ifdef __cplusplus extern "C" { #endif /** * \file * \brief Services API * \ingroup core */ # include # include # include # include # include # include # include // OCF_ROOT_DIR # include "common/results.h" # ifndef LSB_ROOT_DIR # define LSB_ROOT_DIR "/etc/init.d" # endif /* TODO: Autodetect these two ?*/ # ifndef SYSTEMCTL # define SYSTEMCTL "/bin/systemctl" # endif /* Known resource classes */ #define PCMK_RESOURCE_CLASS_OCF "ocf" #define PCMK_RESOURCE_CLASS_SERVICE "service" #define PCMK_RESOURCE_CLASS_LSB "lsb" #define PCMK_RESOURCE_CLASS_SYSTEMD "systemd" #define PCMK_RESOURCE_CLASS_UPSTART "upstart" #define PCMK_RESOURCE_CLASS_NAGIOS "nagios" #define PCMK_RESOURCE_CLASS_STONITH "stonith" /* This is the string passed in the OCF_EXIT_REASON_PREFIX environment variable. * The stderr output that occurs after this prefix is encountered is considered * the exit reason for a completed operation. */ #define PCMK_OCF_REASON_PREFIX "ocf-exit-reason:" // Agent version to use if agent doesn't specify one #define PCMK_DEFAULT_AGENT_VERSION "0.1" enum lsb_exitcode { PCMK_LSB_OK = 0, PCMK_LSB_UNKNOWN_ERROR = 1, PCMK_LSB_INVALID_PARAM = 2, PCMK_LSB_UNIMPLEMENT_FEATURE = 3, PCMK_LSB_INSUFFICIENT_PRIV = 4, PCMK_LSB_NOT_INSTALLED = 5, PCMK_LSB_NOT_CONFIGURED = 6, PCMK_LSB_NOT_RUNNING = 7, }; /* The return codes for the status operation are not the same for other * operatios - go figure */ enum lsb_status_exitcode { PCMK_LSB_STATUS_OK = 0, PCMK_LSB_STATUS_VAR_PID = 1, PCMK_LSB_STATUS_VAR_LOCK = 2, PCMK_LSB_STATUS_NOT_RUNNING = 3, PCMK_LSB_STATUS_UNKNOWN = 4, /* custom codes should be in the 150-199 range reserved for application use */ PCMK_LSB_STATUS_NOT_INSTALLED = 150, PCMK_LSB_STATUS_INSUFFICIENT_PRIV = 151, }; enum nagios_exitcode { NAGIOS_STATE_OK = 0, NAGIOS_STATE_WARNING = 1, NAGIOS_STATE_CRITICAL = 2, NAGIOS_STATE_UNKNOWN = 3, NAGIOS_STATE_DEPENDENT = 4, NAGIOS_INSUFFICIENT_PRIV = 100, NAGIOS_NOT_INSTALLED = 101, }; enum svc_action_flags { /* On timeout, only kill pid, do not kill entire pid group */ SVC_ACTION_LEAVE_GROUP = 0x01, SVC_ACTION_NON_BLOCKED = 0x02, }; typedef struct svc_action_private_s svc_action_private_t; typedef struct svc_action_s { char *id; char *rsc; char *action; guint interval_ms; char *standard; char *provider; char *agent; int timeout; GHashTable *params; /* used for setting up environment for ocf-ra & alert agents and to be sent via stdin for fence-agents */ int rc; int pid; int cancel; int status; int sequence; int expected_rc; int synchronous; enum svc_action_flags flags; char *stderr_data; char *stdout_data; /*! * Data stored by the creator of the action. * * This may be used to hold data that is needed later on by a callback, * for example. */ void *cb_data; svc_action_private_t *opaque; } svc_action_t; /** * \brief Get a list of files or directories in a given path * * \param[in] root full path to a directory to read * \param[in] files return list of files if TRUE or directories if FALSE * \param[in] executable if TRUE and files is TRUE, only return executable files * * \return a list of what was found. The list items are char *. * \note It is the caller's responsibility to free the result with g_list_free_full(list, free). */ GList *get_directory_list(const char *root, gboolean files, gboolean executable); /** * Get a list of services * * \return a list of services. The list items are gchar *. This list _must_ * be destroyed using g_list_free_full(list, free). */ GList *services_list(void); /** * \brief Get a list of providers * * \param[in] standard list providers of this standard (e.g. ocf, lsb, etc.) * * \return a list of providers as char * list items (or NULL if standard does not support providers) * \note The caller is responsible for freeing the result using g_list_free_full(list, free). */ GList *resources_list_providers(const char *standard); /** * \brief Get a list of resource agents * * \param[in] standard list agents using this standard (e.g. ocf, lsb, etc.) (or NULL for all) * \param[in] provider list agents from this provider (or NULL for all) * * \return a list of resource agents. The list items are char *. * \note The caller is responsible for freeing the result using g_list_free_full(list, free). */ GList *resources_list_agents(const char *standard, const char *provider); /** * Get list of available standards * * \return a list of resource standards. The list items are char *. This list _must_ * be destroyed using g_list_free_full(list, free). */ GList *resources_list_standards(void); /** * Does the given standard, provider, and agent describe a resource that can exist? * * \param[in] standard Which class of agent does the resource belong to? * \param[in] provider What provides the agent (NULL for most standards)? * \param[in] agent What is the name of the agent? * * \return A boolean */ gboolean resources_agent_exists(const char *standard, const char *provider, const char *agent); svc_action_t *services_action_create(const char *name, const char *action, guint interval_ms, int timeout /* ms */); /** * \brief Create a new resource action * * \param[in] name Name of resource * \param[in] standard Resource agent standard (ocf, lsb, etc.) * \param[in] provider Resource agent provider * \param[in] agent Resource agent name * \param[in] action action (start, stop, monitor, etc.) * \param[in] interval_ms How often to repeat this action (if 0, execute once) * \param[in] timeout Consider action failed if it does not complete in this many milliseconds * \param[in] params Action parameters * * \return newly allocated action instance * * \post After the call, 'params' is owned, and later free'd by the svc_action_t result * \note The caller is responsible for freeing the return value using * services_action_free(). */ svc_action_t *resources_action_create(const char *name, const char *standard, const char *provider, const char *agent, const char *action, guint interval_ms, int timeout /* ms */, GHashTable *params, enum svc_action_flags flags); /** * Kick a recurring action so it is scheduled immediately for re-execution */ gboolean services_action_kick(const char *name, const char *action, guint interval_ms); const char *resources_find_service_class(const char *agent); /** * Utilize services API to execute an arbitrary command. * * This API has useful infrastructure in place to be able to run a command * in the background and get notified via a callback when the command finishes. * * \param[in] exec command to execute * \param[in] args arguments to the command, NULL terminated * * \return a svc_action_t object, used to pass to the execute function * (services_action_sync() or services_action_async()) and is * provided to the callback. */ svc_action_t *services_action_create_generic(const char *exec, const char *args[]); void services_action_cleanup(svc_action_t * op); void services_action_free(svc_action_t * op); int services_action_user(svc_action_t *op, const char *user); gboolean services_action_sync(svc_action_t * op); /** * Run an action asynchronously. * * \param[in] op services action data * \param[in] action_callback callback for when the action completes * \param[in] action_fork_callback callback for when action forked successfully * * \retval TRUE succesfully started execution * \retval FALSE failed to start execution, no callback will be received */ gboolean services_action_async_fork_notify(svc_action_t * op, void (*action_callback) (svc_action_t *), void (*action_fork_callback) (svc_action_t *)); gboolean services_action_async(svc_action_t * op, void (*action_callback) (svc_action_t *)); gboolean services_action_cancel(const char *name, const char *action, guint interval_ms); /* functions for alert agents */ svc_action_t *services_alert_create(const char *id, const char *exec, int timeout, GHashTable *params, int sequence, void *cb_data); gboolean services_alert_async(svc_action_t *action, void (*cb)(svc_action_t *op)); static inline const char *services_ocf_exitcode_str(enum ocf_exitcode code) { switch (code) { case PCMK_OCF_OK: return "ok"; case PCMK_OCF_UNKNOWN_ERROR: return "error"; case PCMK_OCF_INVALID_PARAM: return "invalid parameter"; case PCMK_OCF_UNIMPLEMENT_FEATURE: return "unimplemented feature"; case PCMK_OCF_INSUFFICIENT_PRIV: return "insufficient privileges"; case PCMK_OCF_NOT_INSTALLED: return "not installed"; case PCMK_OCF_NOT_CONFIGURED: return "not configured"; case PCMK_OCF_NOT_RUNNING: return "not running"; case PCMK_OCF_RUNNING_PROMOTED: return "promoted"; case PCMK_OCF_FAILED_PROMOTED: return "promoted (failed)"; - case PCMK_OCF_SIGNAL: - return "OCF_SIGNAL"; case PCMK_OCF_PENDING: return "OCF_PENDING"; case PCMK_OCF_TIMEOUT: return "OCF_TIMEOUT"; case PCMK_OCF_DEGRADED: return "OCF_DEGRADED"; case PCMK_OCF_DEGRADED_PROMOTED: return "promoted (degraded)"; #if !defined(PCMK_ALLOW_DEPRECATED) || (PCMK_ALLOW_DEPRECATED == 1) case PCMK_OCF_NOT_SUPPORTED: - return "action not supported (DEPRECATED)"; + return "not supported (DEPRECATED STATUS)"; case PCMK_OCF_CANCELLED: - return "action cancelled (DEPRECATED)"; + return "cancelled (DEPRECATED STATUS)"; case PCMK_OCF_OTHER_ERROR: - return "other error (DEPRECATED)"; + return "other error (DEPRECATED STATUS)"; + case PCMK_OCF_SIGNAL: + return "interrupted by signal (DEPRECATED STATUS)"; #endif default: return "unknown"; } } /** * \brief Get OCF equivalent of LSB exit code * * \param[in] action LSB action that produced exit code * \param[in] lsb_exitcode Exit code of LSB action * * \return PCMK_OCF_* constant that corresponds to LSB exit code */ static inline enum ocf_exitcode services_get_ocf_exitcode(const char *action, int lsb_exitcode) { /* For non-status actions, LSB and OCF share error code meaning <= 7 */ if (action && strcmp(action, "status") && strcmp(action, "monitor")) { if ((lsb_exitcode < 0) || (lsb_exitcode > PCMK_LSB_NOT_RUNNING)) { return PCMK_OCF_UNKNOWN_ERROR; } return (enum ocf_exitcode)lsb_exitcode; } /* status has different return codes */ switch (lsb_exitcode) { case PCMK_LSB_STATUS_OK: return PCMK_OCF_OK; case PCMK_LSB_STATUS_NOT_INSTALLED: return PCMK_OCF_NOT_INSTALLED; case PCMK_LSB_STATUS_INSUFFICIENT_PRIV: return PCMK_OCF_INSUFFICIENT_PRIV; case PCMK_LSB_STATUS_VAR_PID: case PCMK_LSB_STATUS_VAR_LOCK: case PCMK_LSB_STATUS_NOT_RUNNING: return PCMK_OCF_NOT_RUNNING; } return PCMK_OCF_UNKNOWN_ERROR; } #if !defined(PCMK_ALLOW_DEPRECATED) || (PCMK_ALLOW_DEPRECATED == 1) #include #endif # ifdef __cplusplus } # endif #endif /* __PCMK_SERVICES__ */ diff --git a/lib/services/services_linux.c b/lib/services/services_linux.c index da29439e21..b306fcef5a 100644 --- a/lib/services/services_linux.c +++ b/lib/services/services_linux.c @@ -1,1247 +1,1247 @@ /* * Copyright 2010-2021 the Pacemaker project contributors * * The version control history for this file may have further details. * * This source code is licensed under the GNU Lesser General Public License * version 2.1 or later (LGPLv2.1+) WITHOUT ANY WARRANTY. */ #include #ifndef _GNU_SOURCE # define _GNU_SOURCE #endif #include #include #include #include #include #include #include #include #include #include #include "crm/crm.h" #include "crm/common/mainloop.h" #include "crm/services.h" #include "services_private.h" static void close_pipe(int fildes[]); /* We have two alternative ways of handling SIGCHLD when synchronously waiting * for spawned processes to complete. Both rely on polling a file descriptor to * discover SIGCHLD events. * * If sys/signalfd.h is available (e.g. on Linux), we call signalfd() to * generate the file descriptor. Otherwise, we use the "self-pipe trick" * (opening a pipe and writing a byte to it when SIGCHLD is received). */ #ifdef HAVE_SYS_SIGNALFD_H // signalfd() implementation #include // Everything needed to manage SIGCHLD handling struct sigchld_data_s { sigset_t mask; // Signals to block now (including SIGCHLD) sigset_t old_mask; // Previous set of blocked signals }; // Initialize SIGCHLD data and prepare for use static bool sigchld_setup(struct sigchld_data_s *data) { sigemptyset(&(data->mask)); sigaddset(&(data->mask), SIGCHLD); sigemptyset(&(data->old_mask)); // Block SIGCHLD (saving previous set of blocked signals to restore later) if (sigprocmask(SIG_BLOCK, &(data->mask), &(data->old_mask)) < 0) { crm_err("Wait for child process completion failed: %s " CRM_XS " source=sigprocmask", pcmk_strerror(errno)); return false; } return true; } // Get a file descriptor suitable for polling for SIGCHLD events static int sigchld_open(struct sigchld_data_s *data) { int fd; CRM_CHECK(data != NULL, return -1); fd = signalfd(-1, &(data->mask), SFD_NONBLOCK); if (fd < 0) { crm_err("Wait for child process completion failed: %s " CRM_XS " source=signalfd", pcmk_strerror(errno)); } return fd; } // Close a file descriptor returned by sigchld_open() static void sigchld_close(int fd) { if (fd > 0) { close(fd); } } // Return true if SIGCHLD was received from polled fd static bool sigchld_received(int fd) { struct signalfd_siginfo fdsi; ssize_t s; if (fd < 0) { return false; } s = read(fd, &fdsi, sizeof(struct signalfd_siginfo)); if (s != sizeof(struct signalfd_siginfo)) { crm_err("Wait for child process completion failed: %s " CRM_XS " source=read", pcmk_strerror(errno)); } else if (fdsi.ssi_signo == SIGCHLD) { return true; } return false; } // Do anything needed after done waiting for SIGCHLD static void sigchld_cleanup(struct sigchld_data_s *data) { // Restore the original set of blocked signals if ((sigismember(&(data->old_mask), SIGCHLD) == 0) && (sigprocmask(SIG_UNBLOCK, &(data->mask), NULL) < 0)) { crm_warn("Could not clean up after child process completion: %s", pcmk_strerror(errno)); } } #else // HAVE_SYS_SIGNALFD_H not defined // Self-pipe implementation (see above for function descriptions) struct sigchld_data_s { int pipe_fd[2]; // Pipe file descriptors struct sigaction sa; // Signal handling info (with SIGCHLD) struct sigaction old_sa; // Previous signal handling info }; // We need a global to use in the signal handler volatile struct sigchld_data_s *last_sigchld_data = NULL; static void sigchld_handler() { // We received a SIGCHLD, so trigger pipe polling if ((last_sigchld_data != NULL) && (last_sigchld_data->pipe_fd[1] >= 0) && (write(last_sigchld_data->pipe_fd[1], "", 1) == -1)) { crm_err("Wait for child process completion failed: %s " CRM_XS " source=write", pcmk_strerror(errno)); } } static bool sigchld_setup(struct sigchld_data_s *data) { int rc; data->pipe_fd[0] = data->pipe_fd[1] = -1; if (pipe(data->pipe_fd) == -1) { crm_err("Wait for child process completion failed: %s " CRM_XS " source=pipe", pcmk_strerror(errno)); return false; } rc = pcmk__set_nonblocking(data->pipe_fd[0]); if (rc != pcmk_rc_ok) { crm_warn("Could not set pipe input non-blocking: %s " CRM_XS " rc=%d", pcmk_rc_str(rc), rc); } rc = pcmk__set_nonblocking(data->pipe_fd[1]); if (rc != pcmk_rc_ok) { crm_warn("Could not set pipe output non-blocking: %s " CRM_XS " rc=%d", pcmk_rc_str(rc), rc); } // Set SIGCHLD handler data->sa.sa_handler = sigchld_handler; data->sa.sa_flags = 0; sigemptyset(&(data->sa.sa_mask)); if (sigaction(SIGCHLD, &(data->sa), &(data->old_sa)) < 0) { crm_err("Wait for child process completion failed: %s " CRM_XS " source=sigaction", pcmk_strerror(errno)); } // Remember data for use in signal handler last_sigchld_data = data; return true; } static int sigchld_open(struct sigchld_data_s *data) { CRM_CHECK(data != NULL, return -1); return data->pipe_fd[0]; } static void sigchld_close(int fd) { // Pipe will be closed in sigchld_cleanup() return; } static bool sigchld_received(int fd) { char ch; if (fd < 0) { return false; } // Clear out the self-pipe while (read(fd, &ch, 1) == 1) /*omit*/; return true; } static void sigchld_cleanup(struct sigchld_data_s *data) { // Restore the previous SIGCHLD handler if (sigaction(SIGCHLD, &(data->old_sa), NULL) < 0) { crm_warn("Could not clean up after child process completion: %s", pcmk_strerror(errno)); } close_pipe(data->pipe_fd); } #endif /*! * \internal * \brief Close the two file descriptors of a pipe * * \param[in] fildes Array of file descriptors opened by pipe() */ static void close_pipe(int fildes[]) { if (fildes[0] >= 0) { close(fildes[0]); fildes[0] = -1; } if (fildes[1] >= 0) { close(fildes[1]); fildes[1] = -1; } } static gboolean svc_read_output(int fd, svc_action_t * op, bool is_stderr) { char *data = NULL; int rc = 0, len = 0; char buf[500]; static const size_t buf_read_len = sizeof(buf) - 1; if (fd < 0) { crm_trace("No fd for %s", op->id); return FALSE; } if (is_stderr && op->stderr_data) { len = strlen(op->stderr_data); data = op->stderr_data; crm_trace("Reading %s stderr into offset %d", op->id, len); } else if (is_stderr == FALSE && op->stdout_data) { len = strlen(op->stdout_data); data = op->stdout_data; crm_trace("Reading %s stdout into offset %d", op->id, len); } else { crm_trace("Reading %s %s into offset %d", op->id, is_stderr?"stderr":"stdout", len); } do { rc = read(fd, buf, buf_read_len); if (rc > 0) { buf[rc] = 0; crm_trace("Got %d chars: %.80s", rc, buf); data = pcmk__realloc(data, len + rc + 1); len += sprintf(data + len, "%s", buf); } else if (errno != EINTR) { /* error or EOF * Cleanup happens in pipe_done() */ rc = FALSE; break; } } while (rc == buf_read_len || rc < 0); if (is_stderr) { op->stderr_data = data; } else { op->stdout_data = data; } return rc; } static int dispatch_stdout(gpointer userdata) { svc_action_t *op = (svc_action_t *) userdata; return svc_read_output(op->opaque->stdout_fd, op, FALSE); } static int dispatch_stderr(gpointer userdata) { svc_action_t *op = (svc_action_t *) userdata; return svc_read_output(op->opaque->stderr_fd, op, TRUE); } static void pipe_out_done(gpointer user_data) { svc_action_t *op = (svc_action_t *) user_data; crm_trace("%p", op); op->opaque->stdout_gsource = NULL; if (op->opaque->stdout_fd > STDOUT_FILENO) { close(op->opaque->stdout_fd); } op->opaque->stdout_fd = -1; } static void pipe_err_done(gpointer user_data) { svc_action_t *op = (svc_action_t *) user_data; op->opaque->stderr_gsource = NULL; if (op->opaque->stderr_fd > STDERR_FILENO) { close(op->opaque->stderr_fd); } op->opaque->stderr_fd = -1; } static struct mainloop_fd_callbacks stdout_callbacks = { .dispatch = dispatch_stdout, .destroy = pipe_out_done, }; static struct mainloop_fd_callbacks stderr_callbacks = { .dispatch = dispatch_stderr, .destroy = pipe_err_done, }; static void set_ocf_env(const char *key, const char *value, gpointer user_data) { if (setenv(key, value, 1) != 0) { crm_perror(LOG_ERR, "setenv failed for key:%s and value:%s", key, value); } } static void set_ocf_env_with_prefix(gpointer key, gpointer value, gpointer user_data) { char buffer[500]; snprintf(buffer, sizeof(buffer), strcmp(key, "OCF_CHECK_LEVEL") != 0 ? "OCF_RESKEY_%s" : "%s", (char *)key); set_ocf_env(buffer, value, user_data); } static void set_alert_env(gpointer key, gpointer value, gpointer user_data) { int rc; if (value != NULL) { rc = setenv(key, value, 1); } else { rc = unsetenv(key); } if (rc < 0) { crm_perror(LOG_ERR, "setenv %s=%s", (char*)key, (value? (char*)value : "")); } else { crm_trace("setenv %s=%s", (char*)key, (value? (char*)value : "")); } } /*! * \internal * \brief Add environment variables suitable for an action * * \param[in] op Action to use */ static void add_action_env_vars(const svc_action_t *op) { void (*env_setter)(gpointer, gpointer, gpointer) = NULL; if (op->agent == NULL) { env_setter = set_alert_env; /* we deal with alert handler */ } else if (pcmk__str_eq(op->standard, PCMK_RESOURCE_CLASS_OCF, pcmk__str_casei)) { env_setter = set_ocf_env_with_prefix; } if (env_setter != NULL && op->params != NULL) { g_hash_table_foreach(op->params, env_setter, NULL); } if (env_setter == NULL || env_setter == set_alert_env) { return; } set_ocf_env("OCF_RA_VERSION_MAJOR", PCMK_OCF_MAJOR_VERSION, NULL); set_ocf_env("OCF_RA_VERSION_MINOR", PCMK_OCF_MINOR_VERSION, NULL); set_ocf_env("OCF_ROOT", OCF_ROOT_DIR, NULL); set_ocf_env("OCF_EXIT_REASON_PREFIX", PCMK_OCF_REASON_PREFIX, NULL); if (op->rsc) { set_ocf_env("OCF_RESOURCE_INSTANCE", op->rsc, NULL); } if (op->agent != NULL) { set_ocf_env("OCF_RESOURCE_TYPE", op->agent, NULL); } /* Notes: this is not added to specification yet. Sept 10,2004 */ if (op->provider != NULL) { set_ocf_env("OCF_RESOURCE_PROVIDER", op->provider, NULL); } } static void pipe_in_single_parameter(gpointer key, gpointer value, gpointer user_data) { svc_action_t *op = user_data; char *buffer = crm_strdup_printf("%s=%s\n", (char *)key, (char *) value); int ret, total = 0, len = strlen(buffer); do { errno = 0; ret = write(op->opaque->stdin_fd, buffer + total, len - total); if (ret > 0) { total += ret; } } while ((errno == EINTR) && (total < len)); free(buffer); } /*! * \internal * \brief Pipe parameters in via stdin for action * * \param[in] op Action to use */ static void pipe_in_action_stdin_parameters(const svc_action_t *op) { crm_debug("sending args"); if (op->params) { g_hash_table_foreach(op->params, pipe_in_single_parameter, (gpointer) op); } } gboolean recurring_action_timer(gpointer data) { svc_action_t *op = data; crm_debug("Scheduling another invocation of %s", op->id); /* Clean out the old result */ free(op->stdout_data); op->stdout_data = NULL; free(op->stderr_data); op->stderr_data = NULL; op->opaque->repeat_timer = 0; services_action_async(op, NULL); return FALSE; } /* Returns FALSE if 'op' should be free'd by the caller */ gboolean operation_finalize(svc_action_t * op) { int recurring = 0; if (op->interval_ms) { if (op->cancel) { op->status = PCMK_EXEC_CANCELLED; cancel_recurring_action(op); } else { recurring = 1; op->opaque->repeat_timer = g_timeout_add(op->interval_ms, recurring_action_timer, (void *)op); } } if (op->opaque->callback) { op->opaque->callback(op); } op->pid = 0; services_untrack_op(op); if (!recurring && op->synchronous == FALSE) { /* * If this is a recurring action, do not free explicitly. * It will get freed whenever the action gets cancelled. */ services_action_free(op); return TRUE; } services_action_cleanup(op); return FALSE; } static void close_op_input(svc_action_t *op) { if (op->opaque->stdin_fd >= 0) { close(op->opaque->stdin_fd); } } static void finish_op_output(svc_action_t *op, bool is_stderr) { mainloop_io_t **source; int fd; if (is_stderr) { source = &(op->opaque->stderr_gsource); fd = op->opaque->stderr_fd; } else { source = &(op->opaque->stdout_gsource); fd = op->opaque->stdout_fd; } if (op->synchronous || *source) { crm_trace("Finish reading %s[%d] %s", op->id, op->pid, (is_stderr? "stdout" : "stderr")); svc_read_output(fd, op, is_stderr); if (op->synchronous) { close(fd); } else { mainloop_del_fd(*source); *source = NULL; } } } // Log an operation's stdout and stderr static void log_op_output(svc_action_t *op) { char *prefix = crm_strdup_printf("%s[%d] error output", op->id, op->pid); crm_log_output(LOG_NOTICE, prefix, op->stderr_data); strcpy(prefix + strlen(prefix) - strlen("error output"), "output"); crm_log_output(LOG_DEBUG, prefix, op->stdout_data); free(prefix); } static void operation_finished(mainloop_child_t * p, pid_t pid, int core, int signo, int exitcode) { svc_action_t *op = mainloop_child_userdata(p); mainloop_clear_child_userdata(p); CRM_ASSERT(op->pid == pid); /* Depending on the priority the mainloop gives the stdout and stderr * file descriptors, this function could be called before everything has * been read from them, so force a final read now. */ finish_op_output(op, true); finish_op_output(op, false); close_op_input(op); if (signo == 0) { crm_debug("%s[%d] exited with status %d", op->id, op->pid, exitcode); op->status = PCMK_EXEC_DONE; op->rc = exitcode; } else if (mainloop_child_timeout(p)) { crm_warn("%s[%d] timed out after %dms", op->id, op->pid, op->timeout); op->status = PCMK_EXEC_TIMEOUT; op->rc = PCMK_OCF_TIMEOUT; } else if (op->cancel) { /* If an in-flight recurring operation was killed because it was * cancelled, don't treat that as a failure. */ crm_info("%s[%d] terminated with signal: %s " CRM_XS " (%d)", op->id, op->pid, strsignal(signo), signo); op->status = PCMK_EXEC_CANCELLED; op->rc = PCMK_OCF_OK; } else { crm_warn("%s[%d] terminated with signal: %s " CRM_XS " (%d)", op->id, op->pid, strsignal(signo), signo); op->status = PCMK_EXEC_ERROR; - op->rc = PCMK_OCF_SIGNAL; + op->rc = PCMK_OCF_UNKNOWN_ERROR; } log_op_output(op); operation_finalize(op); } /*! * \internal * \brief Set operation rc and status per errno from stat(), fork() or execvp() * * \param[in,out] op Operation to set rc and status for * \param[in] error Value of errno after system call * * \return void */ void services__handle_exec_error(svc_action_t * op, int error) { int rc_not_installed, rc_insufficient_priv, rc_exec_error; /* Mimic the return codes for each standard as that's what we'll convert back from in get_uniform_rc() */ if (pcmk__str_eq(op->standard, PCMK_RESOURCE_CLASS_LSB, pcmk__str_casei) && pcmk__str_eq(op->action, "status", pcmk__str_casei)) { rc_not_installed = PCMK_LSB_STATUS_NOT_INSTALLED; rc_insufficient_priv = PCMK_LSB_STATUS_INSUFFICIENT_PRIV; rc_exec_error = PCMK_LSB_STATUS_UNKNOWN; #if SUPPORT_NAGIOS } else if (pcmk__str_eq(op->standard, PCMK_RESOURCE_CLASS_NAGIOS, pcmk__str_casei)) { rc_not_installed = NAGIOS_NOT_INSTALLED; rc_insufficient_priv = NAGIOS_INSUFFICIENT_PRIV; rc_exec_error = PCMK_OCF_UNKNOWN_ERROR; #endif } else { rc_not_installed = PCMK_OCF_NOT_INSTALLED; rc_insufficient_priv = PCMK_OCF_INSUFFICIENT_PRIV; rc_exec_error = PCMK_OCF_UNKNOWN_ERROR; } switch (error) { /* see execve(2), stat(2) and fork(2) */ case ENOENT: /* No such file or directory */ case EISDIR: /* Is a directory */ case ENOTDIR: /* Path component is not a directory */ case EINVAL: /* Invalid executable format */ case ENOEXEC: /* Invalid executable format */ op->rc = rc_not_installed; op->status = PCMK_EXEC_NOT_INSTALLED; break; case EACCES: /* permission denied (various errors) */ case EPERM: /* permission denied (various errors) */ op->rc = rc_insufficient_priv; op->status = PCMK_EXEC_ERROR; break; default: op->rc = rc_exec_error; op->status = PCMK_EXEC_ERROR; } } static void action_launch_child(svc_action_t *op) { /* SIGPIPE is ignored (which is different from signal blocking) by the gnutls library. * Depending on the libqb version in use, libqb may set SIGPIPE to be ignored as well. * We do not want this to be inherited by the child process. By resetting this the signal * to the default behavior, we avoid some potential odd problems that occur during OCF * scripts when SIGPIPE is ignored by the environment. */ signal(SIGPIPE, SIG_DFL); #if defined(HAVE_SCHED_SETSCHEDULER) if (sched_getscheduler(0) != SCHED_OTHER) { struct sched_param sp; memset(&sp, 0, sizeof(sp)); sp.sched_priority = 0; if (sched_setscheduler(0, SCHED_OTHER, &sp) == -1) { crm_perror(LOG_ERR, "Could not reset scheduling policy to SCHED_OTHER for %s", op->id); } } #endif if (setpriority(PRIO_PROCESS, 0, 0) == -1) { crm_perror(LOG_ERR, "Could not reset process priority to 0 for %s", op->id); } /* Man: The call setpgrp() is equivalent to setpgid(0,0) * _and_ compiles on BSD variants too * need to investigate if it works the same too. */ setpgid(0, 0); pcmk__close_fds_in_child(false); #if SUPPORT_CIBSECRETS if (pcmk__substitute_secrets(op->rsc, op->params) != pcmk_rc_ok) { /* replacing secrets failed! */ if (pcmk__str_eq(op->action, "stop", pcmk__str_casei)) { /* don't fail on stop! */ crm_info("proceeding with the stop operation for %s", op->rsc); } else { crm_err("failed to get secrets for %s, " "considering resource not configured", op->rsc); _exit(PCMK_OCF_NOT_CONFIGURED); } } #endif add_action_env_vars(op); /* Become the desired user */ if (op->opaque->uid && (geteuid() == 0)) { // If requested, set effective group if (op->opaque->gid && (setgid(op->opaque->gid) < 0)) { crm_perror(LOG_ERR, "Could not set child group to %d", op->opaque->gid); _exit(PCMK_OCF_NOT_CONFIGURED); } // Erase supplementary group list // (We could do initgroups() if we kept a copy of the username) if (setgroups(0, NULL) < 0) { crm_perror(LOG_ERR, "Could not set child groups"); _exit(PCMK_OCF_NOT_CONFIGURED); } // Set effective user if (setuid(op->opaque->uid) < 0) { crm_perror(LOG_ERR, "setting user to %d", op->opaque->uid); _exit(PCMK_OCF_NOT_CONFIGURED); } } /* execute the RA */ execvp(op->opaque->exec, op->opaque->args); /* Most cases should have been already handled by stat() */ services__handle_exec_error(op, errno); _exit(op->rc); } static void action_synced_wait(svc_action_t *op, struct sigchld_data_s *data) { int status = 0; int timeout = op->timeout; time_t start = -1; struct pollfd fds[3]; int wait_rc = 0; fds[0].fd = op->opaque->stdout_fd; fds[0].events = POLLIN; fds[0].revents = 0; fds[1].fd = op->opaque->stderr_fd; fds[1].events = POLLIN; fds[1].revents = 0; fds[2].fd = sigchld_open(data); fds[2].events = POLLIN; fds[2].revents = 0; crm_trace("Waiting for %s[%d]", op->id, op->pid); start = time(NULL); do { int poll_rc = poll(fds, 3, timeout); if (poll_rc > 0) { if (fds[0].revents & POLLIN) { svc_read_output(op->opaque->stdout_fd, op, FALSE); } if (fds[1].revents & POLLIN) { svc_read_output(op->opaque->stderr_fd, op, TRUE); } if ((fds[2].revents & POLLIN) && sigchld_received(fds[2].fd)) { wait_rc = waitpid(op->pid, &status, WNOHANG); if ((wait_rc > 0) || ((wait_rc < 0) && (errno == ECHILD))) { // Child process exited or doesn't exist break; } else if (wait_rc < 0) { crm_warn("Wait for completion of %s[%d] failed: %s " CRM_XS " source=waitpid", op->id, op->pid, pcmk_strerror(errno)); wait_rc = 0; // Act as if process is still running } } } else if (poll_rc == 0) { // Poll timed out with no descriptors ready timeout = 0; break; } else if ((poll_rc < 0) && (errno != EINTR)) { crm_err("Wait for completion of %s[%d] failed: %s " CRM_XS " source=poll", op->id, op->pid, pcmk_strerror(errno)); break; } timeout = op->timeout - (time(NULL) - start) * 1000; } while ((op->timeout < 0 || timeout > 0)); crm_trace("Stopped waiting for %s[%d]", op->id, op->pid); if (wait_rc <= 0) { op->rc = PCMK_OCF_UNKNOWN_ERROR; if (op->timeout > 0 && timeout <= 0) { op->status = PCMK_EXEC_TIMEOUT; crm_warn("%s[%d] timed out after %dms", op->id, op->pid, op->timeout); } else { op->status = PCMK_EXEC_ERROR; } /* If only child hasn't been successfully waited for, yet. This is to limit killing wrong target a bit more. */ if (wait_rc == 0 && waitpid(op->pid, &status, WNOHANG) == 0) { if (kill(op->pid, SIGKILL)) { crm_warn("Could not kill rogue child %s[%d]: %s", op->id, op->pid, pcmk_strerror(errno)); } /* Safe to skip WNOHANG here as we sent non-ignorable signal. */ while (waitpid(op->pid, &status, 0) == (pid_t) -1 && errno == EINTR) /*omit*/; } } else if (WIFEXITED(status)) { op->status = PCMK_EXEC_DONE; op->rc = WEXITSTATUS(status); crm_info("%s[%d] exited with status %d", op->id, op->pid, op->rc); } else if (WIFSIGNALED(status)) { int signo = WTERMSIG(status); op->status = PCMK_EXEC_ERROR; crm_err("%s[%d] terminated with signal: %s " CRM_XS " (%d)", op->id, op->pid, strsignal(signo), signo); } #ifdef WCOREDUMP if (WCOREDUMP(status)) { crm_err("%s[%d] dumped core", op->id, op->pid); } #endif finish_op_output(op, true); finish_op_output(op, false); close_op_input(op); sigchld_close(fds[2].fd); } /* For an asynchronous 'op', returns FALSE if 'op' should be free'd by the caller */ /* For a synchronous 'op', returns FALSE if 'op' fails */ gboolean services_os_action_execute(svc_action_t * op) { int stdout_fd[2]; int stderr_fd[2]; int stdin_fd[2] = {-1, -1}; int rc; struct stat st; struct sigchld_data_s data; /* Fail fast */ if(stat(op->opaque->exec, &st) != 0) { rc = errno; crm_warn("Cannot execute '%s': %s " CRM_XS " stat rc=%d", op->opaque->exec, pcmk_strerror(rc), rc); services__handle_exec_error(op, rc); if (!op->synchronous) { return operation_finalize(op); } return FALSE; } if (pipe(stdout_fd) < 0) { rc = errno; crm_err("Cannot execute '%s': %s " CRM_XS " pipe(stdout) rc=%d", op->opaque->exec, pcmk_strerror(rc), rc); services__handle_exec_error(op, rc); if (!op->synchronous) { return operation_finalize(op); } return FALSE; } if (pipe(stderr_fd) < 0) { rc = errno; close_pipe(stdout_fd); crm_err("Cannot execute '%s': %s " CRM_XS " pipe(stderr) rc=%d", op->opaque->exec, pcmk_strerror(rc), rc); services__handle_exec_error(op, rc); if (!op->synchronous) { return operation_finalize(op); } return FALSE; } if (pcmk_is_set(pcmk_get_ra_caps(op->standard), pcmk_ra_cap_stdin)) { if (pipe(stdin_fd) < 0) { rc = errno; close_pipe(stdout_fd); close_pipe(stderr_fd); crm_err("Cannot execute '%s': %s " CRM_XS " pipe(stdin) rc=%d", op->opaque->exec, pcmk_strerror(rc), rc); services__handle_exec_error(op, rc); if (!op->synchronous) { return operation_finalize(op); } return FALSE; } } if (op->synchronous && !sigchld_setup(&data)) { close_pipe(stdin_fd); close_pipe(stdout_fd); close_pipe(stderr_fd); sigchld_cleanup(&data); return FALSE; } op->pid = fork(); switch (op->pid) { case -1: rc = errno; close_pipe(stdin_fd); close_pipe(stdout_fd); close_pipe(stderr_fd); crm_err("Cannot execute '%s': %s " CRM_XS " fork rc=%d", op->opaque->exec, pcmk_strerror(rc), rc); services__handle_exec_error(op, rc); if (!op->synchronous) { return operation_finalize(op); } sigchld_cleanup(&data); return FALSE; case 0: /* Child */ close(stdout_fd[0]); close(stderr_fd[0]); if (stdin_fd[1] >= 0) { close(stdin_fd[1]); } if (STDOUT_FILENO != stdout_fd[1]) { if (dup2(stdout_fd[1], STDOUT_FILENO) != STDOUT_FILENO) { crm_warn("Can't redirect output from '%s': %s " CRM_XS " errno=%d", op->opaque->exec, pcmk_strerror(errno), errno); } close(stdout_fd[1]); } if (STDERR_FILENO != stderr_fd[1]) { if (dup2(stderr_fd[1], STDERR_FILENO) != STDERR_FILENO) { crm_warn("Can't redirect error output from '%s': %s " CRM_XS " errno=%d", op->opaque->exec, pcmk_strerror(errno), errno); } close(stderr_fd[1]); } if ((stdin_fd[0] >= 0) && (STDIN_FILENO != stdin_fd[0])) { if (dup2(stdin_fd[0], STDIN_FILENO) != STDIN_FILENO) { crm_warn("Can't redirect input to '%s': %s " CRM_XS " errno=%d", op->opaque->exec, pcmk_strerror(errno), errno); } close(stdin_fd[0]); } if (op->synchronous) { sigchld_cleanup(&data); } action_launch_child(op); CRM_ASSERT(0); /* action_launch_child is effectively noreturn */ } /* Only the parent reaches here */ close(stdout_fd[1]); close(stderr_fd[1]); if (stdin_fd[0] >= 0) { close(stdin_fd[0]); } op->opaque->stdout_fd = stdout_fd[0]; rc = pcmk__set_nonblocking(op->opaque->stdout_fd); if (rc != pcmk_rc_ok) { crm_warn("Could not set '%s' output non-blocking: %s " CRM_XS " rc=%d", op->opaque->exec, pcmk_rc_str(rc), rc); } op->opaque->stderr_fd = stderr_fd[0]; rc = pcmk__set_nonblocking(op->opaque->stderr_fd); if (rc != pcmk_rc_ok) { crm_warn("Could not set '%s' error output non-blocking: %s " CRM_XS " rc=%d", op->opaque->exec, pcmk_rc_str(rc), rc); } op->opaque->stdin_fd = stdin_fd[1]; if (op->opaque->stdin_fd >= 0) { // using buffer behind non-blocking-fd here - that could be improved // as long as no other standard uses stdin_fd assume stonith rc = pcmk__set_nonblocking(op->opaque->stdin_fd); if (rc != pcmk_rc_ok) { crm_warn("Could not set '%s' input non-blocking: %s " CRM_XS " fd=%d,rc=%d", op->opaque->exec, pcmk_rc_str(rc), op->opaque->stdin_fd, rc); } pipe_in_action_stdin_parameters(op); // as long as we are handling parameters directly in here just close close(op->opaque->stdin_fd); op->opaque->stdin_fd = -1; } // after fds are setup properly and before we plug anything into mainloop if (op->opaque->fork_callback) { op->opaque->fork_callback(op); } if (op->synchronous) { action_synced_wait(op, &data); sigchld_cleanup(&data); } else { crm_trace("Waiting async for '%s'[%d]", op->opaque->exec, op->pid); mainloop_child_add_with_flags(op->pid, op->timeout, op->id, op, (op->flags & SVC_ACTION_LEAVE_GROUP) ? mainloop_leave_pid_group : 0, operation_finished); op->opaque->stdout_gsource = mainloop_add_fd(op->id, G_PRIORITY_LOW, op->opaque->stdout_fd, op, &stdout_callbacks); op->opaque->stderr_gsource = mainloop_add_fd(op->id, G_PRIORITY_LOW, op->opaque->stderr_fd, op, &stderr_callbacks); services_add_inflight_op(op); } return TRUE; } static GList * services_os_get_single_directory_list(const char *root, gboolean files, gboolean executable) { GList *list = NULL; struct dirent **namelist; int entries = 0, lpc = 0; char buffer[PATH_MAX]; entries = scandir(root, &namelist, NULL, alphasort); if (entries <= 0) { return list; } for (lpc = 0; lpc < entries; lpc++) { struct stat sb; if ('.' == namelist[lpc]->d_name[0]) { free(namelist[lpc]); continue; } snprintf(buffer, sizeof(buffer), "%s/%s", root, namelist[lpc]->d_name); if (stat(buffer, &sb)) { continue; } if (S_ISDIR(sb.st_mode)) { if (files) { free(namelist[lpc]); continue; } } else if (S_ISREG(sb.st_mode)) { if (files == FALSE) { free(namelist[lpc]); continue; } else if (executable && (sb.st_mode & S_IXUSR) == 0 && (sb.st_mode & S_IXGRP) == 0 && (sb.st_mode & S_IXOTH) == 0) { free(namelist[lpc]); continue; } } list = g_list_append(list, strdup(namelist[lpc]->d_name)); free(namelist[lpc]); } free(namelist); return list; } GList * services_os_get_directory_list(const char *root, gboolean files, gboolean executable) { GList *result = NULL; char *dirs = strdup(root); char *dir = NULL; if (pcmk__str_empty(dirs)) { free(dirs); return result; } for (dir = strtok(dirs, ":"); dir != NULL; dir = strtok(NULL, ":")) { GList *tmp = services_os_get_single_directory_list(dir, files, executable); if (tmp) { result = g_list_concat(result, tmp); } } free(dirs); return result; } static GList * services_os_get_directory_list_provider(const char *root, const char *provider, gboolean files, gboolean executable) { GList *result = NULL; char *dirs = strdup(root); char *dir = NULL; char buffer[PATH_MAX]; if (pcmk__str_empty(dirs)) { free(dirs); return result; } for (dir = strtok(dirs, ":"); dir != NULL; dir = strtok(NULL, ":")) { GList *tmp = NULL; sprintf(buffer, "%s/%s", dir, provider); tmp = services_os_get_single_directory_list(buffer, files, executable); if (tmp) { result = g_list_concat(result, tmp); } } free(dirs); return result; } GList * resources_os_list_ocf_providers(void) { return get_directory_list(OCF_RA_PATH, FALSE, TRUE); } GList * resources_os_list_ocf_agents(const char *provider) { GList *gIter = NULL; GList *result = NULL; GList *providers = NULL; if (provider) { return services_os_get_directory_list_provider(OCF_RA_PATH, provider, TRUE, TRUE); } providers = resources_os_list_ocf_providers(); for (gIter = providers; gIter != NULL; gIter = gIter->next) { GList *tmp1 = result; GList *tmp2 = resources_os_list_ocf_agents(gIter->data); if (tmp2) { result = g_list_concat(tmp1, tmp2); } } g_list_free_full(providers, free); return result; } gboolean services__ocf_agent_exists(const char *provider, const char *agent) { gboolean rc = FALSE; struct stat st; char *dirs = strdup(OCF_RA_PATH); char *dir = NULL; char *buf = NULL; if (provider == NULL || agent == NULL || pcmk__str_empty(dirs)) { free(dirs); return rc; } for (dir = strtok(dirs, ":"); dir != NULL; dir = strtok(NULL, ":")) { buf = crm_strdup_printf("%s/%s/%s", dir, provider, agent); if (stat(buf, &st) == 0) { free(buf); rc = TRUE; break; } free(buf); } free(dirs); return rc; }