/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define VS_INSTANCE_FMRI "svc:/system/filesystem/vscan:icap" /* SMF property group and property names */ #define VS_PGNAME_GENERAL "vs_general" #define VS_PGNAME_ENGINE_PREFIX "vs_engine_" #define VS_PGNAME_ENGINE_LEN VS_SE_NAME_LEN + 16 #define VS_PNAME_MAXSIZE "maxsize" #define VS_PNAME_MAXSIZE_ACTION "maxsize_action" #define VS_PNAME_TYPES "types" #define VS_PNAME_VLOG "viruslog" #define VS_PNAME_SE_ENABLE "enable" #define VS_PNAME_SE_HOST "host" #define VS_PNAME_SE_PORT "port" #define VS_PNAME_SE_MAXCONN "max_connect" #define VS_PNAME_VAUTH "value_authorization" /* types string processing */ #define VS_TYPES_SEP ',' #define VS_TYPES_ESCAPE '\\' #define VS_TYPES_RULES "+-" /* * The SCF context enapsulating the SCF objects used in the * repository load and store routines vs_scf_values_get() * and vs_scf_values_set(). * * The context is always opened before a get or set, then * closed when finished (or on error); the open does an * initial setup, while inside the get and set functions, * additional objects within the context may be selectively * initialized for use, depending on the actions needed and * the properties being operated on. */ typedef struct vs_scfctx { scf_handle_t *vscf_handle; scf_instance_t *vscf_inst; scf_propertygroup_t *vscf_pgroup; scf_transaction_t *vscf_tx; scf_iter_t *vscf_iter; scf_property_t *vscf_prop[VS_NUM_PROPIDS]; scf_transaction_entry_t *vscf_ent[VS_NUM_PROPIDS]; scf_value_t *vscf_val[VS_NUM_PROPIDS]; } vs_scfctx_t; /* * The vscan property definition. Maps the property id with the name * and type used to store the property in the repository. * A table of these definitions is defined with a single entry per * property. */ typedef struct { const char *vpd_name; uint64_t vpd_id; scf_type_t vpd_type; } vs_propdef_t; typedef enum { VS_PTYPE_GEN, VS_PTYPE_SE } vs_prop_type_t; typedef struct vs_prop_hd { vs_prop_type_t vp_type; uint64_t vp_ids; uint64_t vp_all; union { vs_props_t vp_gen; vs_props_se_t vp_se; } vp_props; } vs_prop_hd_t; #define vp_gen vp_props.vp_gen #define vp_se vp_props.vp_se /* * Default values - these are used to return valid data * to the caller in cases where invalid or unexpected values * are found in the repository. * * Note: These values must be kept in sync with those defined * in the service manifest. */ static const boolean_t vs_dflt_allow = B_TRUE; static const boolean_t vs_dflt_enable = B_TRUE; static const char *vs_dflt_maxsize = "1GB"; static const char *vs_dflt_host = ""; static const uint16_t vs_dflt_port = 1344; static const uint16_t vs_dflt_maxconn = 32L; static const char *vs_dflt_types = "+*"; static const char *vs_dflt_vlog = ""; /* Property definition table */ static const vs_propdef_t vs_propdefs[] = { /* general properties */ { VS_PNAME_MAXSIZE, VS_PROPID_MAXSIZE, SCF_TYPE_ASTRING }, { VS_PNAME_MAXSIZE_ACTION, VS_PROPID_MAXSIZE_ACTION, SCF_TYPE_BOOLEAN }, { VS_PNAME_TYPES, VS_PROPID_TYPES, SCF_TYPE_ASTRING }, { VS_PNAME_VLOG, VS_PROPID_VLOG, SCF_TYPE_ASTRING }, /* scan engine properties */ { VS_PNAME_SE_ENABLE, VS_PROPID_SE_ENABLE, SCF_TYPE_BOOLEAN }, { VS_PNAME_SE_HOST, VS_PROPID_SE_HOST, SCF_TYPE_HOST }, { VS_PNAME_SE_PORT, VS_PROPID_SE_PORT, SCF_TYPE_INTEGER }, { VS_PNAME_SE_MAXCONN, VS_PROPID_SE_MAXCONN, SCF_TYPE_INTEGER }, { VS_PNAME_VAUTH, VS_PROPID_VALUE_AUTH, SCF_TYPE_ASTRING } }; static const int vs_npropdefs = sizeof (vs_propdefs)/sizeof (vs_propdef_t); /* Local functions */ static const vs_propdef_t *vs_get_propdef(uint64_t); static void vs_default_value(vs_prop_hd_t *, const uint64_t); static int vs_scf_values_get(const char *, vs_prop_hd_t *); static int vs_scf_get(const vs_propdef_t *, vs_prop_hd_t *, vs_scfctx_t *, int); static int vs_scf_values_set(const char *, vs_prop_hd_t *); static int vs_scf_set(const vs_propdef_t *, vs_prop_hd_t *, vs_scfctx_t *, int); static int vs_scf_pg_create(const char *, vs_prop_hd_t *); static int vs_scf_pg_delete(const char *); static int vs_scf_ctx_open(vs_scfctx_t *); static void vs_scf_ctx_close(vs_scfctx_t *); static int vs_validate(const vs_prop_hd_t *, uint64_t); static int vs_is_valid_types(const char *); static int vs_is_valid_host(const char *); static int vs_checkauth(char *); static int vs_props_get_engines(char *[], int *); static void vs_engid_to_pgname(const char *, char [VS_PGNAME_ENGINE_LEN]); static int vs_scf_pg_count(void); static int vs_strtoshift(const char *); /* * vs_props_get_all * * Retrieves the general service properties and all properties * for all scan engines from the repository. * * If invalid property values are found, the values are corrected to * the default value. * * Return codes: * VS_ERR_VS_ERR_NONE * VS_ERR_SCF * VS_ERR_SYS */ int vs_props_get_all(vs_props_all_t *va) { int i, rc, n; char *engids[VS_SE_MAX]; (void) memset(va, 0, sizeof (vs_props_all_t)); if ((rc = vs_props_get(&va->va_props, VS_PROPID_GEN_ALL)) != VS_ERR_NONE) return (rc); n = VS_SE_MAX; if ((rc = vs_props_get_engines(engids, &n)) != VS_ERR_NONE) return (rc); for (i = 0; i < n; i++) { if ((rc = vs_props_se_get(engids[i], &va->va_se[i], VS_PROPID_SE_ALL)) != VS_ERR_NONE) break; } /* free engids allocated in vs_props_get_engines */ for (i = 0; i < VS_SE_MAX; i++) { if (engids[i] != NULL) free(engids[i]); } return (rc); } /* * vs_props_get * * Retrieves values for the specified general service properties from * the repository. * * If invalid property values are found, the values are corrected to * the default value. * * Return codes: * VS_ERR_VS_ERR_NONE * VS_ERR_INVALID_PROPERTY * VS_ERR_SCF * VS_ERR_SYS */ int vs_props_get(vs_props_t *vp, uint64_t propids) { int rc; vs_prop_hd_t prop_hd; if ((propids & VS_PROPID_GEN_ALL) != propids) return (VS_ERR_INVALID_PROPERTY); (void) memset(&prop_hd, 0, sizeof (vs_prop_hd_t)); prop_hd.vp_type = VS_PTYPE_GEN; prop_hd.vp_ids = propids; prop_hd.vp_all = VS_PROPID_GEN_ALL; rc = vs_scf_values_get(VS_PGNAME_GENERAL, &prop_hd); *vp = prop_hd.vp_gen; return (rc); } /* * vs_props_set * * Changes values for the specified general service properties * in the repository. * * Return codes: * VS_ERR_VS_ERR_NONE * VS_ERR_INVALID_PROPERTY * VS_ERR_INVALID_VALUE * VS_ERR_SCF * VS_ERR_SYS */ int vs_props_set(const vs_props_t *vp, uint64_t propids) { vs_prop_hd_t prop_hd; if ((propids & VS_PROPID_GEN_ALL) != propids) return (VS_ERR_INVALID_PROPERTY); (void) memset(&prop_hd, 0, sizeof (vs_prop_hd_t)); prop_hd.vp_type = VS_PTYPE_GEN; prop_hd.vp_ids = propids; prop_hd.vp_all = VS_PROPID_GEN_ALL; prop_hd.vp_gen = *vp; return (vs_scf_values_set(VS_PGNAME_GENERAL, &prop_hd)); } /* * vs_props_se_get * * Retrieves values for the specified scan engine properties from the * repository. * * If the enable property is set (true), the host property is * checked for validity. If it is not valid, the requested values * are returned with the enable propery set to off (false) * * Return codes: * VS_ERR_VS_ERR_NONE * VS_ERR_INVALID_PROPERTY * VS_ERR_SCF * VS_ERR_SYS */ int vs_props_se_get(char *engid, vs_props_se_t *sep, uint64_t propids) { int rc; char pgname[VS_PGNAME_ENGINE_LEN]; vs_prop_hd_t prop_hd; /* VS_PGNAME_GENERAL is a reserved for GENERAL property group */ if (strcmp(engid, VS_PGNAME_GENERAL) == 0) return (VS_ERR_INVALID_SE); if ((propids & VS_PROPID_SE_ALL) != propids) return (VS_ERR_INVALID_PROPERTY); (void) memset(&prop_hd, 0, sizeof (vs_prop_hd_t)); prop_hd.vp_type = VS_PTYPE_SE; prop_hd.vp_ids = propids; prop_hd.vp_all = VS_PROPID_SE_ALL; (void) strlcpy(prop_hd.vp_se.vep_engid, engid, VS_SE_NAME_LEN); /* If getting enable, get the host property too */ if ((propids & VS_PROPID_SE_ENABLE)) prop_hd.vp_ids |= VS_PROPID_SE_HOST; /* Load values from the repository */ vs_engid_to_pgname(engid, pgname); rc = vs_scf_values_get(pgname, &prop_hd); if (rc != VS_ERR_NONE) return (rc); /* * If the host is invalid and the enable property is on, * return enable property as off */ if ((prop_hd.vp_ids & VS_PROPID_SE_HOST) && (vs_validate(&prop_hd, VS_PROPID_SE_HOST) != VS_ERR_NONE)) { prop_hd.vp_se.vep_enable = B_FALSE; } *sep = prop_hd.vp_se; return (rc); } /* * vs_props_se_set * * Changes the values for the specified scan engine properties in the * repository. * * If the enable property is being changed to true in this operation, * a host property must also be specified, or already exist in the * repository. * * Return codes: * VS_ERR_NONE * VS_ERR_INVALID_PROPERTY * VS_ERR_INVALID_VALUE * VS_ERR_SCF * VS_ERR_SYS */ int vs_props_se_set(char *engid, const vs_props_se_t *sep, uint64_t propids) { int rc; char pgname[VS_PGNAME_ENGINE_LEN]; vs_prop_hd_t prop_hd; /* VS_PGNAME_GENERAL is a reserved for GENERAL property group */ if (strcmp(engid, VS_PGNAME_GENERAL) == 0) return (VS_ERR_INVALID_SE); if ((propids & VS_PROPID_SE_ALL) != propids) return (VS_ERR_INVALID_PROPERTY); (void) memset(&prop_hd, 0, sizeof (vs_prop_hd_t)); prop_hd.vp_type = VS_PTYPE_SE; prop_hd.vp_all = VS_PROPID_SE_ALL; vs_engid_to_pgname(engid, pgname); /* * if enabling a scan engine, ensure that a valid host * is also being set, or already exists in the repository */ if ((propids & VS_PROPID_SE_ENABLE) && (sep->vep_enable == B_TRUE) && !(propids & VS_PROPID_SE_HOST)) { prop_hd.vp_ids = VS_PROPID_SE_HOST; if ((rc = vs_scf_values_get(pgname, &prop_hd)) != VS_ERR_NONE) return (rc); if (vs_validate(&prop_hd, VS_PROPID_SE_HOST) != VS_ERR_NONE) return (VS_ERR_INVALID_HOST); } prop_hd.vp_ids = propids; prop_hd.vp_se = *sep; return (vs_scf_values_set(pgname, &prop_hd)); } /* * vs_props_se_create */ int vs_props_se_create(char *engid, const vs_props_se_t *sep, uint64_t propids) { int n; char pgname[VS_PGNAME_ENGINE_LEN]; vs_prop_hd_t prop_hd; if ((propids & VS_PROPID_SE_ALL) != propids) return (VS_ERR_INVALID_PROPERTY); /* VS_PGNAME_GENERAL is a reserved for GENERAL property group */ if (strcmp(engid, VS_PGNAME_GENERAL) == 0) return (VS_ERR_INVALID_SE); if ((n = vs_scf_pg_count()) == -1) return (VS_ERR_SCF); if (n == VS_SE_MAX) return (VS_ERR_MAX_SE); vs_engid_to_pgname(engid, pgname); (void) memset(&prop_hd, 0, sizeof (vs_prop_hd_t)); prop_hd.vp_type = VS_PTYPE_SE; prop_hd.vp_all = VS_PROPID_SE_ALL; prop_hd.vp_ids = propids | VS_PROPID_VALUE_AUTH; prop_hd.vp_se = *sep; /* if hostname not specified, default it to engid */ if ((propids & VS_PROPID_SE_HOST) == 0) { (void) strlcpy(prop_hd.vp_se.vep_host, engid, MAXHOSTNAMELEN); prop_hd.vp_ids |= VS_PROPID_SE_HOST; } return (vs_scf_pg_create(pgname, &prop_hd)); } /* * vs_props_se_delete */ int vs_props_se_delete(const char *engid) { char pgname[VS_PGNAME_ENGINE_LEN]; /* VS_PGNAME_GENERAL is a reserved for GENERAL property group */ if (strcmp(engid, VS_PGNAME_GENERAL) == 0) return (VS_ERR_INVALID_SE); vs_engid_to_pgname(engid, pgname); return (vs_scf_pg_delete(pgname)); } /* * vs_strerror */ const char * vs_strerror(int error) { switch (error) { case VS_ERR_NONE: return (gettext("no error")); case VS_ERR_INVALID_PROPERTY: return (gettext("invalid property id")); case VS_ERR_INVALID_VALUE: return (gettext("invalid property value")); case VS_ERR_INVALID_HOST: return (gettext("invalid host")); case VS_ERR_INVALID_SE: return (gettext("invalid scan engine")); case VS_ERR_MAX_SE: return (gettext("max scan engines exceeded")); case VS_ERR_AUTH: return (gettext("insufficient privileges for action")); case VS_ERR_DAEMON_COMM: return (gettext("unable to contact vscand")); case VS_ERR_SCF: return (scf_strerror(scf_error())); case VS_ERR_SYS: return (strerror(errno)); default: return (gettext("unknown error")); } } /* * vs_get_propdef * * Finds and returns a property definition by property id. */ static const vs_propdef_t * vs_get_propdef(uint64_t propid) { int i; for (i = 0; i < vs_npropdefs; i++) { if (propid == vs_propdefs[i].vpd_id) return (&vs_propdefs[i]); } return (NULL); } /* * vs_default_value * * Sets a property value that contains invalid data to its default value. * * Note that this function does not alter any values in the repository * This is only to enable the caller to get valid data. */ static void vs_default_value(vs_prop_hd_t *prop_hd, const uint64_t propid) { vs_props_t *vp = &prop_hd->vp_gen; vs_props_se_t *vep = &prop_hd->vp_se; switch (propid) { case VS_PROPID_MAXSIZE: (void) strlcpy(vp->vp_maxsize, vs_dflt_maxsize, sizeof (vp->vp_maxsize)); break; case VS_PROPID_MAXSIZE_ACTION: vp->vp_maxsize_action = vs_dflt_allow; break; case VS_PROPID_TYPES: (void) strlcpy(vp->vp_types, vs_dflt_types, sizeof (vp->vp_types)); break; case VS_PROPID_VLOG: (void) strlcpy(vp->vp_vlog, vs_dflt_vlog, sizeof (vp->vp_vlog)); break; case VS_PROPID_SE_ENABLE: vep->vep_enable = vs_dflt_enable; break; case VS_PROPID_SE_HOST: (void) strlcpy(vep->vep_host, vs_dflt_host, sizeof (vep->vep_host)); break; case VS_PROPID_SE_PORT: vep->vep_port = vs_dflt_port; break; case VS_PROPID_SE_MAXCONN: vep->vep_maxconn = vs_dflt_maxconn; break; default: break; } } /* * vs_scf_values_get * * Gets property values for one or more properties from the repository. * This is the single entry point for loading SMF values. * * While a transaction is not used for loading property values, * the operation is parameterized by a property group. All properties * retrieved in this function, then, must belong to the same property * group. */ int vs_scf_values_get(const char *pgname, vs_prop_hd_t *prop_hd) { vs_scfctx_t vsc; int rc, np; const vs_propdef_t *vpd; uint64_t propid; if ((vs_scf_ctx_open(&vsc)) != 0) { vs_scf_ctx_close(&vsc); return (VS_ERR_SCF); } if (scf_instance_get_pg(vsc.vscf_inst, pgname, vsc.vscf_pgroup) == -1) { vs_scf_ctx_close(&vsc); if (strcmp(pgname, "VS_PGNAME_GENERAL") != 0) { rc = scf_error(); if ((rc == SCF_ERROR_NOT_FOUND) || (rc == SCF_ERROR_INVALID_ARGUMENT)) return (VS_ERR_INVALID_SE); } return (VS_ERR_SCF); } rc = VS_ERR_NONE; np = 0; for (propid = 1LL; propid <= VS_PROPID_MAX; propid <<= 1) { if ((prop_hd->vp_ids & propid) == 0) continue; if ((vpd = vs_get_propdef(propid)) == NULL) { rc = VS_ERR_INVALID_PROPERTY; break; } vsc.vscf_prop[np] = scf_property_create(vsc.vscf_handle); vsc.vscf_val[np] = scf_value_create(vsc.vscf_handle); if (vsc.vscf_prop[np] == NULL || vsc.vscf_val[np] == NULL) { rc = VS_ERR_SCF; break; } if (scf_pg_get_property(vsc.vscf_pgroup, vpd->vpd_name, vsc.vscf_prop[np]) == -1) { if (scf_error() == SCF_ERROR_NOT_FOUND) { vs_default_value(prop_hd, vpd->vpd_id); continue; } rc = VS_ERR_SCF; break; } if ((rc = vs_scf_get(vpd, prop_hd, &vsc, np)) != VS_ERR_NONE) break; ++np; } vs_scf_ctx_close(&vsc); return (rc); } /* * vs_scf_get * * Loads a single values from the repository into the appropriate vscan * property structure member. */ static int vs_scf_get(const vs_propdef_t *vpd, vs_prop_hd_t *prop_hd, vs_scfctx_t *vsc, int idx) { int rc; int64_t port; uint8_t valbool; vs_props_t *vp = &prop_hd->vp_gen; vs_props_se_t *vep = &prop_hd->vp_se; if ((rc = scf_property_get_value(vsc->vscf_prop[idx], vsc->vscf_val[idx])) == -1) { if (rc == SCF_ERROR_CONSTRAINT_VIOLATED || rc == SCF_ERROR_NOT_FOUND) { vs_default_value(prop_hd, vpd->vpd_id); return (VS_ERR_NONE); } return (VS_ERR_SCF); } rc = VS_ERR_NONE; switch (vpd->vpd_id) { case VS_PROPID_MAXSIZE: if ((scf_value_get_astring(vsc->vscf_val[idx], vp->vp_maxsize, sizeof (vp->vp_maxsize))) == -1) { return (VS_ERR_SCF); } break; case VS_PROPID_MAXSIZE_ACTION: if ((scf_value_get_boolean(vsc->vscf_val[idx], &valbool)) == -1) { return (VS_ERR_SCF); } vp->vp_maxsize_action = (valbool == 0) ? B_FALSE : B_TRUE; break; case VS_PROPID_TYPES: if ((scf_value_get_astring(vsc->vscf_val[idx], vp->vp_types, sizeof (vp->vp_types))) == -1) { return (VS_ERR_SCF); } break; case VS_PROPID_VLOG: if ((scf_value_get_astring(vsc->vscf_val[idx], vp->vp_vlog, sizeof (vp->vp_vlog))) == -1) { return (VS_ERR_SCF); } break; case VS_PROPID_SE_ENABLE: if ((scf_value_get_boolean(vsc->vscf_val[idx], &valbool)) == -1) { return (VS_ERR_SCF); } vep->vep_enable = (valbool == 0) ? B_FALSE : B_TRUE; break; case VS_PROPID_SE_HOST: (void) scf_value_get_as_string_typed(vsc->vscf_val[idx], vpd->vpd_type, vep->vep_host, sizeof (vep->vep_host)); break; case VS_PROPID_SE_PORT: if ((scf_value_get_integer(vsc->vscf_val[idx], &port)) == -1) return (VS_ERR_SCF); if (port <= 0 || port >= UINT16_MAX) rc = VS_ERR_INVALID_VALUE; else vep->vep_port = (uint16_t)port; break; case VS_PROPID_SE_MAXCONN: if ((scf_value_get_integer(vsc->vscf_val[idx], (int64_t *)&vep->vep_maxconn)) == -1) { return (VS_ERR_SCF); } break; default: break; } if ((rc != VS_ERR_NONE) || (vs_validate(prop_hd, vpd->vpd_id) != VS_ERR_NONE)) { vs_default_value(prop_hd, vpd->vpd_id); } return (VS_ERR_NONE); } /* * vs_scf_pg_create */ static int vs_scf_pg_create(const char *pgname, vs_prop_hd_t *prop_hd) { int rc; uint64_t propid; vs_scfctx_t vsc; /* ensure that caller has authorization to refresh service */ if ((rc = vs_checkauth(VS_ACTION_AUTH)) != VS_ERR_NONE) return (rc); if (vs_scf_ctx_open(&vsc) != 0) { vs_scf_ctx_close(&vsc); return (VS_ERR_SCF); } if (scf_instance_add_pg(vsc.vscf_inst, pgname, SCF_GROUP_APPLICATION, 0, vsc.vscf_pgroup) == -1) { vs_scf_ctx_close(&vsc); if (scf_error() == SCF_ERROR_INVALID_ARGUMENT) return (VS_ERR_INVALID_SE); return (VS_ERR_SCF); } vs_scf_ctx_close(&vsc); /* set default values for those not specified */ for (propid = 1LL; propid <= VS_PROPID_MAX; propid <<= 1) { if ((propid & prop_hd->vp_all) && !(propid & prop_hd->vp_ids)) vs_default_value(prop_hd, propid); } prop_hd->vp_ids = prop_hd->vp_all; prop_hd->vp_ids |= VS_PROPID_VALUE_AUTH; rc = vs_scf_values_set(pgname, prop_hd); if (rc != VS_ERR_NONE) (void) vs_scf_pg_delete(pgname); return (rc); } /* * vs_scf_pg_delete */ static int vs_scf_pg_delete(const char *pgname) { int rc; vs_scfctx_t vsc; /* ensure that caller has authorization to refresh service */ if ((rc = vs_checkauth(VS_ACTION_AUTH)) != VS_ERR_NONE) return (rc); if (vs_scf_ctx_open(&vsc) != 0) { vs_scf_ctx_close(&vsc); return (VS_ERR_SCF); } if (scf_instance_get_pg(vsc.vscf_inst, pgname, vsc.vscf_pgroup) == -1) { vs_scf_ctx_close(&vsc); rc = scf_error(); if ((rc == SCF_ERROR_NOT_FOUND) || (rc == SCF_ERROR_INVALID_ARGUMENT)) return (VS_ERR_INVALID_SE); else return (VS_ERR_SCF); } if (scf_pg_delete(vsc.vscf_pgroup) == -1) { vs_scf_ctx_close(&vsc); rc = scf_error(); if ((rc == SCF_ERROR_NOT_FOUND) || (rc == SCF_ERROR_INVALID_ARGUMENT)) return (VS_ERR_INVALID_SE); return (VS_ERR_SCF); } vs_scf_ctx_close(&vsc); /* Notify the daemon that things have changed */ if ((smf_refresh_instance(VS_INSTANCE_FMRI)) == -1) { return (VS_ERR_SCF); } return (VS_ERR_NONE); } /* * vs_scf_values_set * * Sets property values in the repository. This is the single * entry point for storing SMF values. * * Like loading values, this is an operation based on a single property * group, so all property values changed in this function must belong * to the same property group. Additionally, this operation is done in * the context of a repository transaction; on any fatal error, the * SCF context will be closed, destroying all SCF objects and aborting * the transaction. */ static int vs_scf_values_set(const char *pgname, vs_prop_hd_t *prop_hd) { int rc, np; const vs_propdef_t *vpd; uint64_t propid; vs_scfctx_t vsc; /* ensure that caller has authorization to refresh service */ if ((rc = vs_checkauth(VS_ACTION_AUTH)) != VS_ERR_NONE) return (rc); if (vs_scf_ctx_open(&vsc) != 0) { vs_scf_ctx_close(&vsc); return (VS_ERR_SCF); } if (scf_instance_get_pg(vsc.vscf_inst, pgname, vsc.vscf_pgroup) == -1) { vs_scf_ctx_close(&vsc); rc = scf_error(); if (strcmp(pgname, "VS_PGNAME_GENERAL") != 0) { if ((rc == SCF_ERROR_NOT_FOUND) || (rc == SCF_ERROR_INVALID_ARGUMENT)) return (VS_ERR_INVALID_SE); } return (VS_ERR_SCF); } if (((vsc.vscf_tx = scf_transaction_create(vsc.vscf_handle)) == NULL) || (scf_transaction_start(vsc.vscf_tx, vsc.vscf_pgroup) == -1)) { vs_scf_ctx_close(&vsc); return (VS_ERR_SCF); } /* Process the value change for each specified property */ rc = 0; np = 0; for (propid = 1LL; propid <= VS_PROPID_MAX; propid <<= 1) { if ((prop_hd->vp_ids & propid) == 0) continue; if ((vpd = vs_get_propdef(propid)) == NULL) { rc = VS_ERR_INVALID_PROPERTY; break; } vsc.vscf_val[np] = scf_value_create(vsc.vscf_handle); vsc.vscf_ent[np] = scf_entry_create(vsc.vscf_handle); if (vsc.vscf_val[np] == NULL || vsc.vscf_ent[np] == NULL) { rc = VS_ERR_SCF; break; } if ((rc = scf_transaction_property_change(vsc.vscf_tx, vsc.vscf_ent[np], vpd->vpd_name, vpd->vpd_type)) == -1) { rc = scf_transaction_property_new(vsc.vscf_tx, vsc.vscf_ent[np], vpd->vpd_name, vpd->vpd_type); } if (rc == -1) { rc = VS_ERR_SCF; break; } if ((rc = vs_scf_set(vpd, prop_hd, &vsc, np)) != VS_ERR_NONE) break; ++np; } if (rc != VS_ERR_NONE) { vs_scf_ctx_close(&vsc); return (rc); } /* Commit the transaction */ if (scf_transaction_commit(vsc.vscf_tx) == -1) { vs_scf_ctx_close(&vsc); return (VS_ERR_SCF); } vs_scf_ctx_close(&vsc); /* Notify the daemon that things have changed */ if ((smf_refresh_instance(VS_INSTANCE_FMRI)) == -1) return (VS_ERR_SCF); return (VS_ERR_NONE); } /* * vs_scf_set * * Stores a single value from the appropriate vscan property structure * member into the repository. * * Values are set in the SCF value object, then the value object * is added to the SCF property object. */ static int vs_scf_set(const vs_propdef_t *vpd, vs_prop_hd_t *prop_hd, vs_scfctx_t *vsc, int idx) { int rc; vs_props_t *vp = &prop_hd->vp_gen; vs_props_se_t *vep = &prop_hd->vp_se; if ((rc = vs_validate(prop_hd, vpd->vpd_id)) != VS_ERR_NONE) return (rc); rc = VS_ERR_NONE; switch (vpd->vpd_id) { case VS_PROPID_MAXSIZE: if ((scf_value_set_astring(vsc->vscf_val[idx], vp->vp_maxsize)) == -1) { rc = VS_ERR_SCF; } break; case VS_PROPID_MAXSIZE_ACTION: scf_value_set_boolean(vsc->vscf_val[idx], (uint8_t)vp->vp_maxsize_action); break; case VS_PROPID_TYPES: if ((scf_value_set_astring(vsc->vscf_val[idx], vp->vp_types)) == -1) { return (VS_ERR_SCF); } break; case VS_PROPID_SE_ENABLE: scf_value_set_boolean(vsc->vscf_val[idx], (uint8_t)vep->vep_enable); break; case VS_PROPID_SE_HOST: if ((scf_value_set_from_string(vsc->vscf_val[idx], vpd->vpd_type, vep->vep_host)) == -1) { rc = VS_ERR_SCF; } break; case VS_PROPID_SE_PORT: scf_value_set_integer(vsc->vscf_val[idx], vep->vep_port); break; case VS_PROPID_SE_MAXCONN: scf_value_set_integer(vsc->vscf_val[idx], vep->vep_maxconn); break; case VS_PROPID_VALUE_AUTH: if ((scf_value_set_astring(vsc->vscf_val[idx], VS_VALUE_AUTH)) == -1) { return (VS_ERR_SCF); } break; default: break; } if ((scf_entry_add_value(vsc->vscf_ent[idx], vsc->vscf_val[idx])) == -1) { return (VS_ERR_SCF); } return (rc); } /* * vs_scf_ctx_open * * Opens an SCF context; creates the minumum SCF objects * for use in loading/storing from the SMF repository (meaning * vscf_property group data). * * Other SCF objects in the context may be initialized elsewher * subsequent to open, but all initialized structures are destroyed * in vs_scf_ctx_close(). */ static int vs_scf_ctx_open(vs_scfctx_t *vsc) { (void) memset(vsc, 0, sizeof (vs_scfctx_t)); if ((vsc->vscf_handle = scf_handle_create(SCF_VERSION)) == NULL) return (VS_ERR_SCF); if (scf_handle_bind(vsc->vscf_handle) == -1) return (VS_ERR_SCF); if ((vsc->vscf_inst = scf_instance_create(vsc->vscf_handle)) == NULL) return (VS_ERR_SCF); if (scf_handle_decode_fmri(vsc->vscf_handle, VS_INSTANCE_FMRI, NULL, NULL, vsc->vscf_inst, NULL, NULL, SCF_DECODE_FMRI_EXACT) == -1) { return (VS_ERR_SCF); } if ((vsc->vscf_pgroup = scf_pg_create(vsc->vscf_handle)) == NULL) return (VS_ERR_SCF); return (VS_ERR_NONE); } /* * vs_scf_ctx_close * * Closes an SCF context; destroys all initialized SCF objects. */ static void vs_scf_ctx_close(vs_scfctx_t *vsc) { int i; for (i = 0; i < VS_NUM_PROPIDS; i++) { if (vsc->vscf_val[i]) scf_value_destroy(vsc->vscf_val[i]); if (vsc->vscf_ent[i]) scf_entry_destroy(vsc->vscf_ent[i]); if (vsc->vscf_prop[i]) scf_property_destroy(vsc->vscf_prop[i]); } if (vsc->vscf_iter) scf_iter_destroy(vsc->vscf_iter); if (vsc->vscf_tx) scf_transaction_destroy(vsc->vscf_tx); if (vsc->vscf_pgroup) scf_pg_destroy(vsc->vscf_pgroup); if (vsc->vscf_inst) scf_instance_destroy(vsc->vscf_inst); if (vsc->vscf_handle) scf_handle_destroy(vsc->vscf_handle); } /* * vs_validate * * Validate property identified in propid. * * Returns: VS_ERR_NONE * VS_ERR_INVALID_VALUE * VS_ERR_INVALID_PROPERTY */ static int vs_validate(const vs_prop_hd_t *prop_hd, uint64_t propid) { uint64_t num; const vs_props_t *vp = &prop_hd->vp_gen; const vs_props_se_t *vep = &prop_hd->vp_se; switch (propid) { case VS_PROPID_MAXSIZE: if ((vs_strtonum(vp->vp_maxsize, &num) != 0) || (num == 0)) return (VS_ERR_INVALID_VALUE); break; case VS_PROPID_MAXSIZE_ACTION: break; case VS_PROPID_TYPES: if (!vs_is_valid_types(vp->vp_types)) return (VS_ERR_INVALID_VALUE); break; case VS_PROPID_SE_ENABLE: break; case VS_PROPID_SE_PORT: if (vep->vep_port == 0) return (VS_ERR_INVALID_VALUE); break; case VS_PROPID_SE_HOST: if (!vs_is_valid_host(vep->vep_host)) return (VS_ERR_INVALID_VALUE); break; case VS_PROPID_SE_MAXCONN: if (vep->vep_maxconn < VS_VAL_SE_MAXCONN_MIN || vep->vep_maxconn > VS_VAL_SE_MAXCONN_MAX) return (VS_ERR_INVALID_VALUE); break; case VS_PROPID_VALUE_AUTH: case VS_PROPID_VLOG: break; default: return (VS_ERR_INVALID_PROPERTY); } return (VS_ERR_NONE); } /* * vs_props_validate * * Validate properties identified in propids. * * Returns: VS_ERR_NONE * VS_ERR_INVALID_VALUE * VS_ERR_INVALID_PROPERTY */ int vs_props_validate(const vs_props_t *props, uint64_t propids) { uint64_t propid; vs_prop_hd_t prop_hd; if ((propids & VS_PROPID_GEN_ALL) != propids) return (VS_ERR_INVALID_PROPERTY); (void) memset(&prop_hd, 0, sizeof (vs_prop_hd_t)); prop_hd.vp_gen = *props; prop_hd.vp_type = VS_PTYPE_GEN; prop_hd.vp_ids = propids; prop_hd.vp_all = VS_PROPID_GEN_ALL; for (propid = 1LL; propid <= VS_PROPID_MAX; propid <<= 1) { if ((propids & propid) == 0) continue; if (vs_validate(&prop_hd, propid) != VS_ERR_NONE) return (VS_ERR_INVALID_VALUE); } return (VS_ERR_NONE); } /* * vs_props_se_validate * * Validate properties identified in propids. * * Returns: VS_ERR_NONE * VS_ERR_INVALID_VALUE * VS_ERR_INVALID_PROPERTY */ int vs_props_se_validate(const vs_props_se_t *se_props, uint64_t propids) { uint64_t propid; vs_prop_hd_t prop_hd; if ((propids & VS_PROPID_SE_ALL) != propids) return (VS_ERR_INVALID_PROPERTY); (void) memset(&prop_hd, 0, sizeof (vs_prop_hd_t)); prop_hd.vp_se = *se_props; prop_hd.vp_type = VS_PTYPE_SE; prop_hd.vp_ids = propids; prop_hd.vp_all = VS_PROPID_SE_ALL; for (propid = 1LL; propid <= VS_PROPID_MAX; propid <<= 1) { if ((propids & propid) == 0) continue; if (vs_validate(&prop_hd, propid) != VS_ERR_NONE) return (VS_ERR_INVALID_VALUE); } return (VS_ERR_NONE); } /* * vs_is_valid_types * * Checks that types property is a valid format: * - doesn't exceed VS_VAL_TYPES_MAX * - doesn't contain VS_VAL_TYPES_INVALID_CHARS * - is correctly formatted - passes the parsing tests * * Returns 1 on success, 0 on failure */ static int vs_is_valid_types(const char *types) { char buf[VS_VAL_TYPES_LEN]; uint32_t len = VS_VAL_TYPES_LEN; if (strlen(types) > VS_VAL_TYPES_LEN) return (0); if (strpbrk(types, VS_VAL_TYPES_INVALID_CHARS) != NULL) return (0); if (vs_parse_types(types, buf, &len) != 0) return (0); return (1); } /* * vs_is_valid_host * * Returns 1 on success, 0 on failure */ static int vs_is_valid_host(const char *host) { long naddr; const char *p; if (!host || *host == '\0') return (0); if ('0' <= host[0] && host[0] <= '9') { /* ip address */ if ((inet_pton(AF_INET, host, &naddr)) == 0) return (0); if ((naddr & IN_CLASSA_NET) == 0) return (0); if ((naddr & IN_CLASSC_HOST) == 0) return (0); } else { /* hostname */ p = host; while (*p != '\0') { if (!isascii(*p)) return (0); if (isalnum(*p) || (*p == '.') || (*p == '-') || (*p == '_')) { ++p; } else { return (0); } } } return (1); } /* * vs_parse_types * * Replace comma separators with '\0'. * * Types contains comma separated rules each beginning with +|- * - embedded commas are escaped by backslash * - backslash is escaped by backslash * - a single backslash not followed by comma is illegal * * On entry to the function len must contain the length of * the buffer. On sucecssful exit len will contain the length * of the parsed data within the buffer. * * Returns 0 on success, -1 on failure */ int vs_parse_types(const char *types, char *buf, uint32_t *len) { char *p = (char *)types; char *b = buf; if (strlen(types) > *len) return (-1); if (strchr(VS_TYPES_RULES, *p) == NULL) return (-1); (void) memset(buf, 0, *len); while (*p) { switch (*p) { case VS_TYPES_SEP: if (*(p + 1) && (strchr(VS_TYPES_RULES, *(p + 1))) == NULL) return (-1); *b = '\0'; break; case VS_TYPES_ESCAPE: ++p; if (*p == VS_TYPES_ESCAPE || *p == VS_TYPES_SEP) *b = *p; else return (-1); break; default: *b = *p; } ++p; ++b; } *len = (b - buf) + 1; return (0); } /* * vs_statistics */ int vs_statistics(vs_stats_t *stats) { int door_fd, rc = VS_ERR_NONE; vs_stats_req_t *req; vs_stats_rsp_t *rsp; door_arg_t arg; if ((req = calloc(1, sizeof (vs_stats_req_t))) == NULL) return (VS_ERR_SYS); if ((rsp = calloc(1, sizeof (vs_stats_rsp_t))) == NULL) { free(req); return (VS_ERR_SYS); } if ((door_fd = open(VS_STATS_DOOR_NAME, O_RDONLY)) < 0) { free(req); free(rsp); return (VS_ERR_DAEMON_COMM); } req->vsr_magic = VS_STATS_DOOR_MAGIC; req->vsr_id = VS_STATS_GET; arg.data_ptr = (char *)req; arg.data_size = sizeof (vs_stats_req_t); arg.desc_ptr = NULL; arg.desc_num = 0; arg.rbuf = (char *)rsp; arg.rsize = sizeof (vs_stats_rsp_t); if ((door_call(door_fd, &arg) < 0) || (rsp->vsr_magic != VS_STATS_DOOR_MAGIC)) { rc = VS_ERR_DAEMON_COMM; } else { *stats = rsp->vsr_stats; } (void) close(door_fd); free(req); free(rsp); return (rc); } /* * vs_statistics_reset */ int vs_statistics_reset() { int door_fd, rc; vs_stats_req_t *req; door_arg_t arg; /* ensure that caller has authorization to reset stats */ if ((rc = vs_checkauth(VS_VALUE_AUTH)) != VS_ERR_NONE) return (rc); if ((req = calloc(1, sizeof (vs_stats_req_t))) == NULL) return (VS_ERR_SYS); if ((door_fd = open(VS_STATS_DOOR_NAME, O_RDONLY)) < 0) { free(req); return (VS_ERR_DAEMON_COMM); } req->vsr_magic = VS_STATS_DOOR_MAGIC; req->vsr_id = VS_STATS_RESET; arg.data_ptr = (char *)req; arg.data_size = sizeof (vs_stats_req_t); arg.desc_ptr = NULL; arg.desc_num = 0; arg.rbuf = NULL; arg.rsize = 0; if (door_call(door_fd, &arg) < 0) rc = VS_ERR_DAEMON_COMM; else rc = VS_ERR_NONE; (void) close(door_fd); free(req); return (rc); } /* * vs_checkauth */ static int vs_checkauth(char *auth) { struct passwd *pw; uid_t uid; uid = getuid(); if ((pw = getpwuid(uid)) == NULL) return (VS_ERR_SYS); if (chkauthattr(auth, pw->pw_name) != 1) { return (VS_ERR_AUTH); } return (VS_ERR_NONE); } /* * vs_props_get_engines * * On input, count specifies the maximum number of engine ids to * return. engids must be an array with count entries. * On return, count specifies the number of engine ids being * returned in engids. * * Caller is responsible for free'ing the engids allocated herein. */ static int vs_props_get_engines(char *engids[], int *count) { int i, prefix_len; char pgname[VS_PGNAME_ENGINE_LEN]; vs_scfctx_t vsc; if (((vs_scf_ctx_open(&vsc)) != 0) || ((vsc.vscf_iter = scf_iter_create(vsc.vscf_handle)) == NULL) || (scf_iter_instance_pgs_typed(vsc.vscf_iter, vsc.vscf_inst, SCF_GROUP_APPLICATION) != 0)) { vs_scf_ctx_close(&vsc); return (VS_ERR_SCF); } for (i = 0; i < *count; i++) engids[i] = NULL; i = 0; prefix_len = sizeof (VS_PGNAME_ENGINE_PREFIX) - 1; while ((i < VS_SE_MAX) && (scf_iter_next_pg(vsc.vscf_iter, vsc.vscf_pgroup) == 1)) { if (scf_pg_get_name(vsc.vscf_pgroup, pgname, VS_PGNAME_ENGINE_LEN) < 0) { vs_scf_ctx_close(&vsc); return (VS_ERR_SCF); } if (strncmp(pgname, VS_PGNAME_ENGINE_PREFIX, prefix_len) == 0) { if ((engids[i] = strdup(pgname + prefix_len)) != NULL) { if (++i == *count) break; } } } vs_scf_ctx_close(&vsc); *count = i; return (VS_ERR_NONE); } /* * vs_scf_pg_count */ static int vs_scf_pg_count(void) { int count = 0; vs_scfctx_t vsc; if ((vs_scf_ctx_open(&vsc) != 0) || ((vsc.vscf_iter = scf_iter_create(vsc.vscf_handle)) == NULL) || (scf_iter_instance_pgs_typed(vsc.vscf_iter, vsc.vscf_inst, SCF_GROUP_APPLICATION) != 0)) { vs_scf_ctx_close(&vsc); return (-1); } while (scf_iter_next_pg(vsc.vscf_iter, vsc.vscf_pgroup) == 1) ++count; vs_scf_ctx_close(&vsc); return (count); } /* * vs_engid_to_pgname * * To convert an engine id (engid) to a property group name (pgname), * the engine id is prefixed with VS_PGNAME_ENGINE_PREFIX. */ static void vs_engid_to_pgname(const char *engid, char pgname[VS_PGNAME_ENGINE_LEN]) { (void) snprintf(pgname, VS_PGNAME_ENGINE_LEN, "%s%s", VS_PGNAME_ENGINE_PREFIX, engid); } /* * vs_strtonum * * Converts a size string in the format into an integer. * * A size string is a numeric value followed by an optional unit * specifier which is used as a multiplier to calculate a raw * number. * The size string format is: N[.N][KMGTP][B] * * The numeric value can contain a decimal portion. Unit specifiers * are either a one-character or two-character string; i.e. "K" or * "KB" for kilobytes. Unit specifiers must follow the numeric portion * immediately, and are not case-sensitive. * * If either "B" is specified, or there is no unit specifier portion * in the string, the numeric value is calculated with no multiplier * (assumes a basic unit of "bytes"). * * Returns: * -1: Failure; errno set to specify the error. * 0: Success. */ int vs_strtonum(const char *value, uint64_t *num) { char *end; int shift; double fval; *num = 0; /* Check to see if this looks like a number. */ if ((value[0] < '0' || value[0] > '9') && value[0] != '.') { errno = EINVAL; return (-1); } /* Rely on stroll() to process the numeric portion. */ errno = 0; *num = strtoll(value, &end, 10); /* * Check for ERANGE, which indicates that the value is too large to * fit in a 64-bit value. */ if (errno != 0) return (-1); /* * If we have a decimal value, then do the computation with floating * point arithmetic. Otherwise, use standard arithmetic. */ if (*end == '.') { fval = strtod(value, &end); if ((shift = vs_strtoshift(end)) == -1) return (-1); /* errno set */ fval *= pow(2, shift); if (fval > UINT64_MAX) { errno = ERANGE; return (-1); } *num = (uint64_t)fval; } else { if ((shift = vs_strtoshift(end)) == -1) return (-1); /* errno set */ /* Check for overflow */ if (shift >= 64 || (*num << shift) >> shift != *num) { errno = ERANGE; return (-1); } *num <<= shift; } return (0); } /* * vs_strtoshift * * Converts a unit specifier string into a number of bits that * a numeric value must be shifted. * * Returns: * -1: Failure; errno set to specify the error. * >-1: Success; the shift count. * */ static int vs_strtoshift(const char *buf) { const char *ends = "BKMGTPEZ"; int i; if (buf[0] == '\0') return (0); for (i = 0; i < strlen(ends); i++) { if (toupper(buf[0]) == ends[i]) break; } if (i == strlen(ends)) { errno = EINVAL; return (-1); } /* Allow trailing 'b' characters except in the case of 'BB'. */ if (buf[1] == '\0' || (toupper(buf[1]) == 'B' && buf[2] == '\0' && toupper(buf[0]) != 'B')) { return (10 * i); } errno = EINVAL; return (-1); }