X-Git-Url: http://www.project-moonshot.org/gitweb/?a=blobdiff_plain;f=util_radius.cpp;h=3aef0db72eb27c09d8188ed6abc6227ffff613f4;hb=15c93f06ee6ddefa7e7b095351f6e66698c7cc9e;hp=0d3e1ef5f382013a15ff22e9bb122bb2fe1edde0;hpb=0b050d686548cfd64ed7fc5386dfcd774158d352;p=mech_eap.git diff --git a/util_radius.cpp b/util_radius.cpp index 0d3e1ef..3aef0db 100644 --- a/util_radius.cpp +++ b/util_radius.cpp @@ -32,112 +32,710 @@ #include "gssapiP_eap.h" +/* stuff that should be provided by libradsec/libfreeradius-radius */ +#define VENDORATTR(vendor, attr) (((vendor) << 16) | (attr)) + +#ifndef ATTRID +#define ATTRID(attr) ((attr) & 0xFFFF) +#endif + +static gss_buffer_desc radiusUrnPrefix = { + sizeof("urn:x-radius:") - 1, + (void *)"urn:x-radius:" +}; + +static VALUE_PAIR *copyAvps(const VALUE_PAIR *src); + +gss_eap_radius_attr_provider::gss_eap_radius_attr_provider(void) +{ + m_vps = NULL; + m_authenticated = false; +} + +gss_eap_radius_attr_provider::~gss_eap_radius_attr_provider(void) +{ + if (m_vps != NULL) + pairfree(&m_vps); +} + bool -gss_eap_radius_attr_source::initFromExistingContext(const gss_eap_attr_ctx *source, - const gss_eap_attr_source *ctx) +gss_eap_radius_attr_provider::initFromExistingContext(const gss_eap_attr_ctx *manager, + const gss_eap_attr_provider *ctx) { - if (!gss_eap_attr_source::initFromExistingContext(source, ctx)) + const gss_eap_radius_attr_provider *radius; + + if (!gss_eap_attr_provider::initFromExistingContext(manager, ctx)) return false; + radius = static_cast(ctx); + + if (radius->m_vps != NULL) + m_vps = copyAvps(const_cast(radius->getAvps())); + + m_authenticated = radius->m_authenticated; + return true; } bool -gss_eap_radius_attr_source::initFromGssContext(const gss_eap_attr_ctx *source, - const gss_cred_id_t gssCred, - const gss_ctx_id_t gssCtx) +gss_eap_radius_attr_provider::initFromGssContext(const gss_eap_attr_ctx *manager, + const gss_cred_id_t gssCred, + const gss_ctx_id_t gssCtx) { - if (!gss_eap_attr_source::initFromGssContext(source, gssCred, gssCtx)) + if (!gss_eap_attr_provider::initFromGssContext(manager, gssCred, gssCtx)) return false; + if (gssCtx != GSS_C_NO_CONTEXT) { + if (gssCtx->acceptorCtx.vps != NULL) { + m_vps = copyAvps(gssCtx->acceptorCtx.vps); + if (m_vps == NULL) + return false; + + /* We assume libradsec validated this for us */ + assert(pairfind(m_vps, PW_MESSAGE_AUTHENTICATOR) != NULL); + m_authenticated = true; + } + } + return true; } -gss_eap_radius_attr_source::~gss_eap_radius_attr_source(void) +static bool +alreadyAddedAttributeP(std::vector &attrs, VALUE_PAIR *vp) +{ + for (std::vector::const_iterator a = attrs.begin(); + a != attrs.end(); + ++a) { + if (strcmp(vp->name, (*a).c_str()) == 0) + return true; + } + + return false; +} + +static bool +isSecretAttributeP(uint16_t attrid, uint16_t vendor) { + bool ret = false; + + switch (vendor) { + case VENDORPEC_MS: + switch (attrid) { + case PW_MS_MPPE_SEND_KEY: + case PW_MS_MPPE_RECV_KEY: + ret = true; + break; + default: + break; + } + default: + break; + } + + return ret; +} + +static bool +isSecretAttributeP(uint32_t attribute) +{ + return isSecretAttributeP(ATTRID(attribute), VENDOR(attribute)); +} + +static bool +isHiddenAttributeP(uint16_t attrid, uint16_t vendor) +{ + bool ret = false; + + /* should have been filtered */ + assert(!isSecretAttributeP(attrid, vendor)); + + switch (vendor) { + case VENDORPEC_UKERNA: + ret = true; + break; + default: + break; + } + + return ret; +} + +static bool +isHiddenAttributeP(uint32_t attribute) +{ + return isHiddenAttributeP(ATTRID(attribute), VENDOR(attribute)); +} + +/* + * Copy AVP list, same as paircopy except it filters out attributes + * containing keys. + */ +static VALUE_PAIR * +copyAvps(const VALUE_PAIR *src) +{ + const VALUE_PAIR *vp; + VALUE_PAIR *dst = NULL, **pDst = &dst; + + for (vp = src; vp != NULL; vp = vp->next) { + VALUE_PAIR *vpcopy; + + if (isSecretAttributeP(vp->attribute)) + continue; + + vpcopy = paircopyvp(vp); + if (vpcopy == NULL) { + pairfree(&dst); + throw new std::bad_alloc; + return NULL; + } + *pDst = vpcopy; + pDst = &vpcopy->next; + } + + return dst; } bool -gss_eap_radius_attr_source::getAttributeTypes(gss_eap_attr_enumeration_cb addAttribute, void *data) const +gss_eap_radius_attr_provider::getAttributeTypes(gss_eap_attr_enumeration_cb addAttribute, void *data) const { + VALUE_PAIR *vp; + std::vector seen; + + for (vp = m_vps; vp != NULL; vp = vp->next) { + gss_buffer_desc attribute; + char attrid[64]; + + if (isHiddenAttributeP(vp->attribute)) + continue; + + if (alreadyAddedAttributeP(seen, vp)) + continue; + + snprintf(attrid, sizeof(attrid), "%s%d", + (char *)radiusUrnPrefix.value, vp->attribute); + + attribute.value = attrid; + attribute.length = strlen(attrid); + + if (!addAttribute(this, &attribute, data)) + return false; + + seen.push_back(std::string(vp->name)); + } + return true; } void -gss_eap_radius_attr_source::setAttribute(int complete, - const gss_buffer_t attr, - const gss_buffer_t value) +gss_eap_radius_attr_provider::setAttribute(int complete, + const gss_buffer_t attr, + const gss_buffer_t value) { } void -gss_eap_radius_attr_source::deleteAttribute(const gss_buffer_t value) +gss_eap_radius_attr_provider::deleteAttribute(const gss_buffer_t value) { } bool -gss_eap_radius_attr_source::getAttribute(const gss_buffer_t attr, - int *authenticated, - int *complete, - gss_buffer_t value, - gss_buffer_t display_value, - int *more) const +gss_eap_radius_attr_provider::getAttribute(const gss_buffer_t attr, + int *authenticated, + int *complete, + gss_buffer_t value, + gss_buffer_t display_value, + int *more) const { - return false; + OM_uint32 tmpMinor; + gss_buffer_desc strAttr = GSS_C_EMPTY_BUFFER; + DICT_ATTR *da; + uint32_t attrid; + char *s; + + duplicateBuffer(*attr, &strAttr); + s = (char *)strAttr.value; + + if (attr->length < radiusUrnPrefix.length || + memcmp(s, radiusUrnPrefix.value, radiusUrnPrefix.length) != 0) + return false; + + s += radiusUrnPrefix.length; + + if (isdigit(*s)) { + attrid = strtoul(s, NULL, 10); + } else { + da = dict_attrbyname(s); + if (da == NULL) { + gss_release_buffer(&tmpMinor, &strAttr); + return false; + } + attrid = da->attr; + } + + gss_release_buffer(&tmpMinor, &strAttr); + + return getAttribute(attrid, authenticated, complete, + value, display_value, more); } bool -gss_eap_radius_attr_source::getAttribute(unsigned int attr, - int *authenticated, - int *complete, - gss_buffer_t value, - gss_buffer_t display_value, - int *more) const +gss_eap_radius_attr_provider::getAttribute(uint32_t attrid, + int *authenticated, + int *complete, + gss_buffer_t value, + gss_buffer_t display_value, + int *more) const { - return false; + VALUE_PAIR *vp; + int i = *more, count = 0; + + *more = 0; + + if (isHiddenAttributeP(attrid)) + return false; + + if (i == -1) + i = 0; + + for (vp = pairfind(m_vps, attrid); + vp != NULL; + vp = pairfind(vp->next, attrid)) { + if (count++ == i) { + if (pairfind(vp->next, attrid) != NULL) + *more = count; + break; + } + } + + if (vp == NULL && *more == 0) + return false; + + if (value != GSS_C_NO_BUFFER) { + gss_buffer_desc valueBuf; + + valueBuf.value = (void *)vp->vp_octets; + valueBuf.length = vp->length; + + duplicateBuffer(valueBuf, value); + } + + if (display_value != GSS_C_NO_BUFFER) { + char displayString[MAX_STRING_LEN]; + gss_buffer_desc displayBuf; + + displayBuf.length = vp_prints_value(displayString, + sizeof(displayString), vp, 0); + displayBuf.value = (void *)displayString; + + duplicateBuffer(displayBuf, display_value); + } + + if (authenticated != NULL) + *authenticated = m_authenticated; + if (complete != NULL) + *complete = true; + + return true; +} + +bool +gss_eap_radius_attr_provider::getFragmentedAttribute(uint16_t attribute, + uint16_t vendor, + int *authenticated, + int *complete, + gss_buffer_t value) const +{ + OM_uint32 major, minor; + + major = gssEapRadiusGetAvp(&minor, m_vps, attribute, vendor, value, TRUE); + + if (authenticated != NULL) + *authenticated = m_authenticated; + if (complete != NULL) + *complete = true; + + return !GSS_ERROR(major); +} + +bool +gss_eap_radius_attr_provider::getAttribute(uint16_t attribute, + uint16_t vendor, + int *authenticated, + int *complete, + gss_buffer_t value, + gss_buffer_t display_value, + int *more) const +{ + + return getAttribute(VENDORATTR(attribute, vendor), + authenticated, complete, + value, display_value, more); } gss_any_t -gss_eap_radius_attr_source::mapToAny(int authenticated, +gss_eap_radius_attr_provider::mapToAny(int authenticated, gss_buffer_t type_id) const { - return (gss_any_t)NULL; + if (authenticated && !m_authenticated) + return (gss_any_t)NULL; + + return (gss_any_t)copyAvps(m_vps); } void -gss_eap_radius_attr_source::releaseAnyNameMapping(gss_buffer_t type_id, - gss_any_t input) const +gss_eap_radius_attr_provider::releaseAnyNameMapping(gss_buffer_t type_id, + gss_any_t input) const +{ + pairfree((VALUE_PAIR **)&input); +} + +bool +gss_eap_radius_attr_provider::init(void) { + gss_eap_attr_ctx::registerProvider(ATTR_TYPE_RADIUS, + "urn:ietf:params:gss-eap:radius-avp", + gss_eap_radius_attr_provider::createAttrContext); + return true; } void -gss_eap_radius_attr_source::exportToBuffer(gss_buffer_t buffer) const +gss_eap_radius_attr_provider::finalize(void) { + gss_eap_attr_ctx::unregisterProvider(ATTR_TYPE_RADIUS); } -bool -gss_eap_radius_attr_source::initFromBuffer(const gss_eap_attr_ctx *ctx, - const gss_buffer_t buffer) +gss_eap_attr_provider * +gss_eap_radius_attr_provider::createAttrContext(void) { - if (!gss_eap_attr_source::initFromBuffer(ctx, buffer)) - return false; + return new gss_eap_radius_attr_provider; +} + +OM_uint32 +gssEapRadiusAddAvp(OM_uint32 *minor, + VALUE_PAIR **vps, + uint16_t attribute, + uint16_t vendor, + gss_buffer_t buffer) +{ + uint32_t attrid = VENDORATTR(vendor, attribute); + unsigned char *p = (unsigned char *)buffer->value; + size_t remain = buffer->length; + + do { + VALUE_PAIR *vp; + size_t n = remain; + + if (n > MAX_STRING_LEN) + n = MAX_STRING_LEN; + + vp = paircreate(attrid, PW_TYPE_OCTETS); + if (vp == NULL) { + *minor = ENOMEM; + return GSS_S_FAILURE; + } + + memcpy(vp->vp_octets, p, n); + vp->length = n; + + pairadd(vps, vp); + + p += n; + remain -= n; + } while (remain != 0); + + return GSS_S_COMPLETE; +} + +OM_uint32 +gssEapRadiusGetRawAvp(OM_uint32 *minor, + VALUE_PAIR *vps, + uint16_t attribute, + uint16_t vendor, + VALUE_PAIR **vp) +{ + uint32_t attr = VENDORATTR(vendor, attribute); + + *vp = pairfind(vps, attr); + + return (*vp == NULL) ? GSS_S_UNAVAILABLE : GSS_S_COMPLETE; +} + +OM_uint32 +gssEapRadiusGetAvp(OM_uint32 *minor, + VALUE_PAIR *vps, + uint16_t attribute, + uint16_t vendor, + gss_buffer_t buffer, + int concat) +{ + VALUE_PAIR *vp; + unsigned char *p; + uint32_t attr = VENDORATTR(vendor, attribute); + + buffer->length = 0; + buffer->value = NULL; + + vp = pairfind(vps, attr); + if (vp == NULL) + return GSS_S_UNAVAILABLE; + + do { + buffer->length += vp->length; + } while (concat && (vp = pairfind(vp->next, attr)) != NULL); + + buffer->value = GSSEAP_MALLOC(buffer->length); + if (buffer->value == NULL) { + *minor = ENOMEM; + return GSS_S_FAILURE; + } + + p = (unsigned char *)buffer->value; + + for (vp = pairfind(vps, attr); + concat && vp != NULL; + vp = pairfind(vp->next, attr)) { + memcpy(p, vp->vp_octets, vp->length); + p += vp->length; + } + + *minor = 0; + return GSS_S_COMPLETE; +} + +OM_uint32 +gssEapRadiusFreeAvps(OM_uint32 *minor, + VALUE_PAIR **vps) +{ + pairfree(vps); + *minor = 0; + return GSS_S_COMPLETE; +} + +OM_uint32 +gssEapRadiusAttrProviderInit(OM_uint32 *minor) +{ + if (!gss_eap_radius_attr_provider::init()) { + *minor = GSSEAP_RADSEC_INIT_FAILURE; + return GSS_S_FAILURE; + } + + return GSS_S_COMPLETE; +} + +OM_uint32 +gssEapRadiusAttrProviderFinalize(OM_uint32 *minor) +{ + gss_eap_radius_attr_provider::finalize(); + return GSS_S_COMPLETE; +} + +/* + * Encoding is: + * 4 octet NBO attribute ID | 4 octet attribute length | attribute data + */ +static size_t +avpSize(const VALUE_PAIR *vp) +{ + size_t size = 4 + 1; + + if (vp != NULL) + size += vp->length; + + return size; +} +static bool +avpExport(const VALUE_PAIR *vp, + unsigned char **pBuffer, + size_t *pRemain) +{ + unsigned char *p = *pBuffer; + size_t remain = *pRemain; + + assert(remain >= avpSize(vp)); + + store_uint32_be(vp->attribute, p); + + switch (vp->type) { + case PW_TYPE_INTEGER: + case PW_TYPE_IPADDR: + case PW_TYPE_DATE: + p[4] = 4; + store_uint32_be(vp->lvalue, p + 5); + break; + default: + assert(vp->length <= MAX_STRING_LEN); + p[4] = (uint8_t)vp->length; + memcpy(p + 5, vp->vp_octets, vp->length); + break; + } + + *pBuffer += 5 + p[4]; + *pRemain -= 5 + p[4]; + + return true; + +} + +static bool +avpImport(VALUE_PAIR **pVp, + unsigned char **pBuffer, + size_t *pRemain) +{ + unsigned char *p = *pBuffer; + size_t remain = *pRemain; + VALUE_PAIR *vp = NULL; + DICT_ATTR *da; + uint32_t attrid; + + if (remain < avpSize(NULL)) + goto fail; + + attrid = load_uint32_be(p); + p += 4; + remain -= 4; + + da = dict_attrbyvalue(attrid); + if (da == NULL) + goto fail; + + vp = pairalloc(da); + if (vp == NULL) { + throw new std::bad_alloc; + goto fail; + } + + if (remain < p[0]) + goto fail; + + switch (vp->type) { + case PW_TYPE_INTEGER: + case PW_TYPE_IPADDR: + case PW_TYPE_DATE: + if (p[0] != 4) + goto fail; + + vp->length = 4; + vp->lvalue = load_uint32_be(p + 1); + p += 5; + remain -= 5; + break; + case PW_TYPE_STRING: + /* check enough room to NUL terminate */ + if (p[0] == MAX_STRING_LEN) + goto fail; + else + /* fallthrough */ + default: + if (p[0] > MAX_STRING_LEN) + goto fail; + + vp->length = (uint32_t)p[0]; + memcpy(vp->vp_octets, p + 1, vp->length); + + if (vp->type == PW_TYPE_STRING) + vp->vp_strvalue[vp->length] = '\0'; + + p += 1 + vp->length; + remain -= 1 + vp->length; + break; + } + + *pVp = vp; + *pBuffer = p; + *pRemain = remain; + + return true; + +fail: + pairbasicfree(vp); return false; } bool -gss_eap_radius_attr_source::init(void) +gss_eap_radius_attr_provider::initFromBuffer(const gss_eap_attr_ctx *ctx, + const gss_buffer_t buffer) { + unsigned char *p = (unsigned char *)buffer->value; + size_t remain = buffer->length; + VALUE_PAIR **pNext = &m_vps; + + if (!gss_eap_attr_provider::initFromBuffer(ctx, buffer)) + return false; + + do { + VALUE_PAIR *attr; + + if (!avpImport(&attr, &p, &remain)) + return false; + + *pNext = attr; + pNext = &attr->next; + } while (remain != 0); + return true; } void -gss_eap_radius_attr_source::finalize(void) +gss_eap_radius_attr_provider::exportToBuffer(gss_buffer_t buffer) const { + VALUE_PAIR *vp; + unsigned char *p; + size_t remain = 0; + + for (vp = m_vps; vp != NULL; vp = vp->next) { + remain += avpSize(vp); + } + + buffer->value = GSSEAP_MALLOC(remain); + if (buffer->value == NULL) { + throw new std::bad_alloc; + return; + } + buffer->length = remain; + + p = (unsigned char *)buffer->value; + + for (vp = m_vps; vp != NULL; vp = vp->next) { + avpExport(vp, &p, &remain); + } + + assert(remain == 0); } -gss_eap_attr_source * -gss_eap_radius_attr_source::createAttrContext(void) +time_t +gss_eap_radius_attr_provider::getExpiryTime(void) const { - return new gss_eap_radius_attr_source; + VALUE_PAIR *vp; + + vp = pairfind(m_vps, PW_SESSION_TIMEOUT); + if (vp == NULL || vp->lvalue == 0) + return 0; + + return time(NULL) + vp->lvalue; +} + +/* partition error namespace so it does not conflict with krb5 */ +#define RS_TO_COM_ERR(rse) ((rse) == RSE_OK ? 0 : (rse) + ERROR_TABLE_BASE_rse) +#define COM_TO_RS_ERR(err) ((err) > ERROR_TABLE_BASE_rse && \ + (err) <= (ERROR_TABLE_BASE_rse + RSE_SOME_ERROR) ? \ + (err) - ERROR_TABLE_BASE_rse : RSE_SOME_ERROR) + +OM_uint32 +gssEapRadiusMapError(OM_uint32 *minor, + struct rs_error *err) +{ + int code = RSE_OK; + + if (err != NULL) + code = rs_err_code(err, 0); + else + code = RSE_SOME_ERROR; + + *minor = RS_TO_COM_ERR(code); + + gssEapSaveStatusInfo(*minor, "%s", rs_err_msg(err, 0)); + + rs_err_free(err); + return GSS_S_FAILURE; }