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Add support for VLAN filtering

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This patch adds support for filtering of VLAN (802.1Q) traffic to the
parser and makes us of the ebtables support for VLAN filtering. This code
now enables the filtering of traffic in chains with prefix 'vlan'.

Signed-off-by: Stefan Berger <stefanb@linux.vnet.ibm.com>
This commit is contained in:
Stefan Berger 2011-11-19 07:26:56 -05:00 committed by Stefan Berger
parent a495365d09
commit 8047c4bffa
4 changed files with 201 additions and 0 deletions
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47
docs/schemas/nwfilter.rng
View File

@ -28,6 +28,16 @@
</element>
</zeroOrMore>
</optional>
<optional>
<zeroOrMore>
<element name="vlan">
<ref name="match-attribute"/>
<ref name="common-l2-attributes"/>
<ref name="vlan-attributes"/>
<ref name="comment-attribute"/>
</element>
</zeroOrMore>
</optional>
<optional>
<zeroOrMore>
<element name="arp">
@ -286,6 +296,9 @@
<attribute name="chain">
<choice>
<value>root</value>
<data type="string">
<param name="pattern">vlan[a-zA-Z0-9_\.:-]{0,8}</param>
</data>
<data type="string">
<param name="pattern">arp[a-zA-Z0-9_\.:-]{0,9}</param>
</data>
@ -557,6 +570,21 @@
</interleave>
</define>
<define name="vlan-attributes">
<interleave>
<optional>
<attribute name="vlanid">
<ref name="vlan-vlanid"/>
</attribute>
</optional>
<optional>
<attribute name="encap-protocol">
<ref name="mac-protocolid"/>
</attribute>
</optional>
</interleave>
</define>
<define name="arp-attributes">
<interleave>
<optional>
@ -762,10 +790,29 @@
<value>rarp</value>
<value>ipv4</value>
<value>ipv6</value>
<value>vlan</value>
</choice>
</choice>
</define>
<define name="vlan-vlanid">
<choice>
<!-- variable -->
<data type="string">
<param name="pattern">$[a-zA-Z0-9_]+</param>
</data>
<data type="string">
<param name="pattern">0x([0-9a-fA-F]{1,3})</param>
</data>
<data type="int">
<param name="minInclusive">0</param>
<param name="maxInclusive">4095</param>
</data>
</choice>
</define>
<define name="uint8range">
<choice>
<!-- variable -->

102
src/conf/nwfilter_conf.c
View File

@ -82,6 +82,7 @@ VIR_ENUM_IMPL(virNWFilterEbtablesTable, VIR_NWFILTER_EBTABLES_TABLE_LAST,
VIR_ENUM_IMPL(virNWFilterChainSuffix, VIR_NWFILTER_CHAINSUFFIX_LAST,
"root",
"vlan",
"arp",
"rarp",
"ipv4",
@ -90,6 +91,7 @@ VIR_ENUM_IMPL(virNWFilterChainSuffix, VIR_NWFILTER_CHAINSUFFIX_LAST,
VIR_ENUM_IMPL(virNWFilterRuleProtocol, VIR_NWFILTER_RULE_PROTOCOL_LAST,
"none",
"mac",
"vlan",
"arp",
"rarp",
"ip",
@ -126,6 +128,7 @@ struct int_map {
static const struct int_map chain_priorities[] = {
INTMAP_ENTRY(NWFILTER_ROOT_FILTER_PRI, "root"),
INTMAP_ENTRY(NWFILTER_VLAN_FILTER_PRI, "vlan"),
INTMAP_ENTRY(NWFILTER_IPV4_FILTER_PRI, "ipv4"),
INTMAP_ENTRY(NWFILTER_IPV6_FILTER_PRI, "ipv6"),
INTMAP_ENTRY(NWFILTER_ARP_FILTER_PRI , "arp" ),
@ -459,6 +462,7 @@ static const struct int_map macProtoMap[] = {
INTMAP_ENTRY(ETHERTYPE_REVARP, "rarp"),
INTMAP_ENTRY(ETHERTYPE_IP , "ipv4"),
INTMAP_ENTRY(ETHERTYPE_IPV6 , "ipv6"),
INTMAP_ENTRY(ETHERTYPE_VLAN , "vlan"),
INTMAP_ENTRY_LAST
};
@ -513,6 +517,75 @@ macProtocolIDFormatter(virBufferPtr buf,
}
static bool
checkVlanVlanID(enum attrDatatype datatype, union data *value,
virNWFilterRuleDefPtr nwf,
nwItemDesc *item ATTRIBUTE_UNUSED)
{
int32_t res;
res = value->ui;
if (res < 0 || res > 4095) {
res = -1;
}
if (res != -1) {
nwf->p.vlanHdrFilter.dataVlanID.u.u16 = res;
nwf->p.vlanHdrFilter.dataVlanID.datatype = datatype;
return true;
}
return false;
}
static bool
checkVlanProtocolID(enum attrDatatype datatype, union data *value,
virNWFilterRuleDefPtr nwf,
nwItemDesc *item ATTRIBUTE_UNUSED)
{
int32_t res = -1;
if (datatype == DATATYPE_STRING) {
if (intMapGetByString(macProtoMap, value->c, 1, &res) == 0)
res = -1;
datatype = DATATYPE_UINT16;
} else if (datatype == DATATYPE_UINT16 ||
datatype == DATATYPE_UINT16_HEX) {
res = value->ui;
if (res < 0x3c)
res = -1;
}
if (res != -1) {
nwf->p.vlanHdrFilter.dataVlanEncap.u.u16 = res;
nwf->p.vlanHdrFilter.dataVlanEncap.datatype = datatype;
return true;
}
return false;
}
static bool
vlanProtocolIDFormatter(virBufferPtr buf,
virNWFilterRuleDefPtr nwf,
nwItemDesc *item ATTRIBUTE_UNUSED)
{
const char *str = NULL;
bool asHex = true;
if (intMapGetByInt(macProtoMap,
nwf->p.vlanHdrFilter.dataVlanEncap.u.u16,
&str)) {
virBufferAdd(buf, str, -1);
} else {
if (nwf->p.vlanHdrFilter.dataVlanEncap.datatype == DATATYPE_UINT16)
asHex = false;
virBufferAsprintf(buf, asHex ? "0x%x" : "%d",
nwf->p.vlanHdrFilter.dataVlanEncap.u.u16);
}
return true;
}
/* generic function to check for a valid (ipv4,ipv6, mac) mask
* A mask is valid of there is a sequence of 1's followed by a sequence
* of 0s or only 1s or only 0s
@ -951,6 +1024,27 @@ static const virXMLAttr2Struct macAttributes[] = {
}
};
static const virXMLAttr2Struct vlanAttributes[] = {
COMMON_MAC_PROPS(ethHdrFilter),
{
.name = "vlanid",
.datatype = DATATYPE_UINT16 | DATATYPE_UINT16_HEX,
.dataIdx = offsetof(virNWFilterRuleDef, p.vlanHdrFilter.dataVlanID),
.validator = checkVlanVlanID,
},
{
.name = "encap-protocol",
.datatype = DATATYPE_UINT16 | DATATYPE_UINT16_HEX | DATATYPE_STRING,
.dataIdx = offsetof(virNWFilterRuleDef, p.vlanHdrFilter.dataVlanEncap),
.validator = checkVlanProtocolID,
.formatter = vlanProtocolIDFormatter,
},
COMMENT_PROP(vlanHdrFilter),
{
.name = NULL,
}
};
static const virXMLAttr2Struct arpAttributes[] = {
COMMON_MAC_PROPS(arpHdrFilter),
{
@ -1408,6 +1502,7 @@ static const virAttributes virAttr[] = {
PROTOCOL_ENTRY("arp" , arpAttributes , VIR_NWFILTER_RULE_PROTOCOL_ARP),
PROTOCOL_ENTRY("rarp" , arpAttributes , VIR_NWFILTER_RULE_PROTOCOL_RARP),
PROTOCOL_ENTRY("mac" , macAttributes , VIR_NWFILTER_RULE_PROTOCOL_MAC),
PROTOCOL_ENTRY("vlan" , vlanAttributes , VIR_NWFILTER_RULE_PROTOCOL_VLAN),
PROTOCOL_ENTRY("ip" , ipAttributes , VIR_NWFILTER_RULE_PROTOCOL_IP),
PROTOCOL_ENTRY("ipv6" , ipv6Attributes , VIR_NWFILTER_RULE_PROTOCOL_IPV6),
PROTOCOL_ENTRY("tcp" , tcpAttributes , VIR_NWFILTER_RULE_PROTOCOL_TCP),
@ -1735,6 +1830,13 @@ virNWFilterRuleDefFixup(virNWFilterRuleDefPtr rule)
rule->p.ethHdrFilter.ethHdr.dataDstMACAddr);
break;
case VIR_NWFILTER_RULE_PROTOCOL_VLAN:
COPY_NEG_SIGN(rule->p.vlanHdrFilter.ethHdr.dataSrcMACMask,
rule->p.vlanHdrFilter.ethHdr.dataSrcMACAddr);
COPY_NEG_SIGN(rule->p.vlanHdrFilter.ethHdr.dataDstMACMask,
rule->p.vlanHdrFilter.ethHdr.dataDstMACAddr);
break;
case VIR_NWFILTER_RULE_PROTOCOL_IP:
COPY_NEG_SIGN(rule->p.ipHdrFilter.ipHdr.dataSrcIPMask,
rule->p.ipHdrFilter.ipHdr.dataSrcIPAddr);

17
src/conf/nwfilter_conf.h
View File

@ -55,6 +55,9 @@
# ifndef ETHERTYPE_IPV6
# define ETHERTYPE_IPV6 0x86dd
# endif
# ifndef ETHERTYPE_VLAN
# define ETHERTYPE_VLAN 0x8100
# endif
/**
* Chain suffix size is:
@ -151,6 +154,16 @@ struct _ethHdrFilterDef {
};
typedef struct _vlanHdrFilterDef vlanHdrFilterDef;
typedef vlanHdrFilterDef *vlanHdrFilterDefPtr;
struct _vlanHdrFilterDef {
ethHdrDataDef ethHdr;
nwItemDesc dataVlanID;
nwItemDesc dataVlanEncap;
nwItemDesc dataComment;
};
typedef struct _arpHdrFilterDef arpHdrFilterDef;
typedef arpHdrFilterDef *arpHdrFilterDefPtr;
struct _arpHdrFilterDef {
@ -323,6 +336,7 @@ enum virNWFilterChainPolicyType {
enum virNWFilterRuleProtocolType {
VIR_NWFILTER_RULE_PROTOCOL_NONE = 0,
VIR_NWFILTER_RULE_PROTOCOL_MAC,
VIR_NWFILTER_RULE_PROTOCOL_VLAN,
VIR_NWFILTER_RULE_PROTOCOL_ARP,
VIR_NWFILTER_RULE_PROTOCOL_RARP,
VIR_NWFILTER_RULE_PROTOCOL_IP,
@ -364,6 +378,7 @@ enum virNWFilterEbtablesTableType {
# define NWFILTER_MAX_FILTER_PRIORITY MAX_RULE_PRIORITY
# define NWFILTER_ROOT_FILTER_PRI 0
# define NWFILTER_VLAN_FILTER_PRI -750
# define NWFILTER_IPV4_FILTER_PRI -700
# define NWFILTER_IPV6_FILTER_PRI -600
# define NWFILTER_ARP_FILTER_PRI -500
@ -401,6 +416,7 @@ struct _virNWFilterRuleDef {
enum virNWFilterRuleProtocolType prtclType;
union {
ethHdrFilterDef ethHdrFilter;
vlanHdrFilterDef vlanHdrFilter;
arpHdrFilterDef arpHdrFilter; /* also used for rarp */
ipHdrFilterDef ipHdrFilter;
ipv6HdrFilterDef ipv6HdrFilter;
@ -440,6 +456,7 @@ struct _virNWFilterEntry {
enum virNWFilterChainSuffixType {
VIR_NWFILTER_CHAINSUFFIX_ROOT = 0,
VIR_NWFILTER_CHAINSUFFIX_VLAN,
VIR_NWFILTER_CHAINSUFFIX_ARP,
VIR_NWFILTER_CHAINSUFFIX_RARP,
VIR_NWFILTER_CHAINSUFFIX_IPv4,

35
src/nwfilter/nwfilter_ebiptables_driver.c
View File

@ -188,6 +188,7 @@ enum l3_proto_idx {
L3_PROTO_IPV6_IDX,
L3_PROTO_ARP_IDX,
L3_PROTO_RARP_IDX,
L2_PROTO_VLAN_IDX,
L3_PROTO_LAST_IDX
};
@ -203,6 +204,7 @@ static const struct ushort_map l3_protocols[] = {
USHORTMAP_ENTRY_IDX(L3_PROTO_IPV6_IDX, ETHERTYPE_IPV6 , "ipv6"),
USHORTMAP_ENTRY_IDX(L3_PROTO_ARP_IDX , ETHERTYPE_ARP , "arp"),
USHORTMAP_ENTRY_IDX(L3_PROTO_RARP_IDX, ETHERTYPE_REVARP, "rarp"),
USHORTMAP_ENTRY_IDX(L2_PROTO_VLAN_IDX, ETHERTYPE_VLAN , "vlan"),
USHORTMAP_ENTRY_IDX(L3_PROTO_LAST_IDX, 0 , NULL),
};
@ -1996,6 +1998,38 @@ ebtablesCreateRuleInstance(char chainPrefix,
}
break;
case VIR_NWFILTER_RULE_PROTOCOL_VLAN:
virBufferAsprintf(&buf,
CMD_DEF_PRE "%s -t %s -%%c %s %%s",
ebtables_cmd_path, EBTABLES_DEFAULT_TABLE, chain);
if (ebtablesHandleEthHdr(&buf,
vars,
&rule->p.vlanHdrFilter.ethHdr,
reverse))
goto err_exit;
virBufferAddLit(&buf,
" -p 0x8100");
#define INST_ITEM(STRUCT, ITEM, CLI) \
if (HAS_ENTRY_ITEM(&rule->p.STRUCT.ITEM)) { \
if (printDataType(vars, \
number, sizeof(number), \
&rule->p.STRUCT.ITEM)) \
goto err_exit; \
virBufferAsprintf(&buf, \
" " CLI " %s %s", \
ENTRY_GET_NEG_SIGN(&rule->p.STRUCT.ITEM), \
number); \
}
INST_ITEM(vlanHdrFilter, dataVlanID, "--vlan-id")
INST_ITEM(vlanHdrFilter, dataVlanEncap, "--vlan-encap")
break;
case VIR_NWFILTER_RULE_PROTOCOL_ARP:
case VIR_NWFILTER_RULE_PROTOCOL_RARP:
@ -2443,6 +2477,7 @@ ebiptablesCreateRuleInstance(virConnectPtr conn ATTRIBUTE_UNUSED,
switch (rule->prtclType) {
case VIR_NWFILTER_RULE_PROTOCOL_IP:
case VIR_NWFILTER_RULE_PROTOCOL_MAC:
case VIR_NWFILTER_RULE_PROTOCOL_VLAN:
case VIR_NWFILTER_RULE_PROTOCOL_ARP:
case VIR_NWFILTER_RULE_PROTOCOL_RARP:
case VIR_NWFILTER_RULE_PROTOCOL_NONE: