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authoraliguori <aliguori@c046a42c-6fe2-441c-8c8c-71466251a162>2008-11-21 16:25:17 +0000
committeraliguori <aliguori@c046a42c-6fe2-441c-8c8c-71466251a162>2008-11-21 16:25:17 +0000
commit8f2e8d1f800d242feb99da920675186fa66f8942 (patch)
tree859895ad4685f5b68dc1096a194f6af1a442b003
parent7e5f90fa3ff32ea31548666d57a78005555ecf34 (diff)
e1000 VLAN offload emulation (Alex Williamson)
We're currently ignoring the e1000 VLAN tagging, stripping and filtering features in the e1000 emulation. This patch adds backing for the relevant registers and provides a software implementation of the acceleration, such that a guest can make use of VLANs. This is mostly (only?) useful for a guest on a bridge (not user mode networking). The only caveat beyond that is that you need to make sure the host NIC isn't doing it's own tagging, stripping, or filtering. This generally means the host NIC on the bridge should not be part of a VLAN. Signed-off-by: Alex Williamson <alex.williamson@hp.com> Signed-off-by: Anthony Liguori <aliguori@us.ibm.com> git-svn-id: svn://svn.savannah.nongnu.org/qemu/trunk@5766 c046a42c-6fe2-441c-8c8c-71466251a162
-rw-r--r--hw/e1000.c80
1 files changed, 73 insertions, 7 deletions
diff --git a/hw/e1000.c b/hw/e1000.c
index b351119b41..71781e6e99 100644
--- a/hw/e1000.c
+++ b/hw/e1000.c
@@ -88,9 +88,12 @@ typedef struct E1000State_st {
int check_rxov;
struct e1000_tx {
unsigned char header[256];
+ unsigned char vlan_header[4];
+ unsigned char vlan[4];
unsigned char data[0x10000];
uint16_t size;
unsigned char sum_needed;
+ unsigned char vlan_needed;
uint8_t ipcss;
uint8_t ipcso;
uint16_t ipcse;
@@ -127,7 +130,8 @@ enum {
defreg(TDBAL), defreg(TDH), defreg(TDLEN), defreg(TDT),
defreg(TORH), defreg(TORL), defreg(TOTH), defreg(TOTL),
defreg(TPR), defreg(TPT), defreg(TXDCTL), defreg(WUFC),
- defreg(RA), defreg(MTA), defreg(CRCERRS),
+ defreg(RA), defreg(MTA), defreg(CRCERRS),defreg(VFTA),
+ defreg(VET),
};
enum { PHY_R = 1, PHY_W = 2, PHY_RW = PHY_R | PHY_W };
@@ -293,6 +297,31 @@ putsum(uint8_t *data, uint32_t n, uint32_t sloc, uint32_t css, uint32_t cse)
}
}
+static inline int
+vlan_enabled(E1000State *s)
+{
+ return ((s->mac_reg[CTRL] & E1000_CTRL_VME) != 0);
+}
+
+static inline int
+vlan_rx_filter_enabled(E1000State *s)
+{
+ return ((s->mac_reg[RCTL] & E1000_RCTL_VFE) != 0);
+}
+
+static inline int
+is_vlan_packet(E1000State *s, const uint8_t *buf)
+{
+ return (be16_to_cpup((uint16_t *)(buf + 12)) ==
+ le16_to_cpup((uint16_t *)(s->mac_reg + VET)));
+}
+
+static inline int
+is_vlan_txd(uint32_t txd_lower)
+{
+ return ((txd_lower & E1000_TXD_CMD_VLE) != 0);
+}
+
static void
xmit_seg(E1000State *s)
{
@@ -335,7 +364,12 @@ xmit_seg(E1000State *s)
putsum(tp->data, tp->size, tp->tucso, tp->tucss, tp->tucse);
if (tp->sum_needed & E1000_TXD_POPTS_IXSM)
putsum(tp->data, tp->size, tp->ipcso, tp->ipcss, tp->ipcse);
- qemu_send_packet(s->vc, tp->data, tp->size);
+ if (tp->vlan_needed) {
+ memmove(tp->vlan, tp->data, 12);
+ memcpy(tp->data + 8, tp->vlan_header, 4);
+ qemu_send_packet(s->vc, tp->vlan, tp->size + 4);
+ } else
+ qemu_send_packet(s->vc, tp->data, tp->size);
s->mac_reg[TPT]++;
s->mac_reg[GPTC]++;
n = s->mac_reg[TOTL];
@@ -382,6 +416,15 @@ process_tx_desc(E1000State *s, struct e1000_tx_desc *dp)
// legacy descriptor
tp->cptse = 0;
+ if (vlan_enabled(s) && is_vlan_txd(txd_lower) &&
+ (tp->cptse || txd_lower & E1000_TXD_CMD_EOP)) {
+ tp->vlan_needed = 1;
+ cpu_to_be16wu((uint16_t *)(tp->vlan_header),
+ le16_to_cpup((uint16_t *)(s->mac_reg + VET)));
+ cpu_to_be16wu((uint16_t *)(tp->vlan_header + 2),
+ le16_to_cpu(dp->upper.fields.special));
+ }
+
addr = le64_to_cpu(dp->buffer_addr);
if (tp->tse && tp->cptse) {
hdr = tp->hdr_len;
@@ -415,6 +458,7 @@ process_tx_desc(E1000State *s, struct e1000_tx_desc *dp)
xmit_seg(s);
tp->tso_frames = 0;
tp->sum_needed = 0;
+ tp->vlan_needed = 0;
tp->size = 0;
tp->cptse = 0;
}
@@ -481,6 +525,14 @@ receive_filter(E1000State *s, const uint8_t *buf, int size)
static int mta_shift[] = {4, 3, 2, 0};
uint32_t f, rctl = s->mac_reg[RCTL], ra[2], *rp;
+ if (is_vlan_packet(s, buf) && vlan_rx_filter_enabled(s)) {
+ uint16_t vid = be16_to_cpup((uint16_t *)(buf + 14));
+ uint32_t vfta = le32_to_cpup((uint32_t *)(s->mac_reg + VFTA) +
+ ((vid >> 5) & 0x7f));
+ if ((vfta & (1 << (vid & 0x1f))) == 0)
+ return 0;
+ }
+
if (rctl & E1000_RCTL_UPE) // promiscuous
return 1;
@@ -535,6 +587,8 @@ e1000_receive(void *opaque, const uint8_t *buf, int size)
target_phys_addr_t base;
unsigned int n, rdt;
uint32_t rdh_start;
+ uint16_t vlan_special = 0;
+ uint8_t vlan_status = 0, vlan_offset = 0;
if (!(s->mac_reg[RCTL] & E1000_RCTL_EN))
return;
@@ -548,6 +602,14 @@ e1000_receive(void *opaque, const uint8_t *buf, int size)
if (!receive_filter(s, buf, size))
return;
+ if (vlan_enabled(s) && is_vlan_packet(s, buf)) {
+ vlan_special = cpu_to_le16(be16_to_cpup((uint16_t *)(buf + 14)));
+ memmove((void *)(buf + 4), buf, 12);
+ vlan_status = E1000_RXD_STAT_VP;
+ vlan_offset = 4;
+ size -= 4;
+ }
+
rdh_start = s->mac_reg[RDH];
size += 4; // for the header
do {
@@ -558,10 +620,11 @@ e1000_receive(void *opaque, const uint8_t *buf, int size)
base = ((uint64_t)s->mac_reg[RDBAH] << 32) + s->mac_reg[RDBAL] +
sizeof(desc) * s->mac_reg[RDH];
cpu_physical_memory_read(base, (void *)&desc, sizeof(desc));
- desc.status |= E1000_RXD_STAT_DD;
+ desc.special = vlan_special;
+ desc.status |= (vlan_status | E1000_RXD_STAT_DD);
if (desc.buffer_addr) {
cpu_physical_memory_write(le64_to_cpu(desc.buffer_addr),
- (void *)buf, size);
+ (void *)(buf + vlan_offset), size);
desc.length = cpu_to_le16(size);
desc.status |= E1000_RXD_STAT_EOP|E1000_RXD_STAT_IXSM;
} else // as per intel docs; skip descriptors with null buf addr
@@ -691,7 +754,7 @@ static uint32_t (*macreg_readops[])(E1000State *, int) = {
getreg(WUFC), getreg(TDT), getreg(CTRL), getreg(LEDCTL),
getreg(MANC), getreg(MDIC), getreg(SWSM), getreg(STATUS),
getreg(TORL), getreg(TOTL), getreg(IMS), getreg(TCTL),
- getreg(RDH), getreg(RDT),
+ getreg(RDH), getreg(RDT), getreg(VET),
[TOTH] = mac_read_clr8, [TORH] = mac_read_clr8, [GPRC] = mac_read_clr4,
[GPTC] = mac_read_clr4, [TPR] = mac_read_clr4, [TPT] = mac_read_clr4,
@@ -699,6 +762,7 @@ static uint32_t (*macreg_readops[])(E1000State *, int) = {
[CRCERRS ... MPC] = &mac_readreg,
[RA ... RA+31] = &mac_readreg,
[MTA ... MTA+127] = &mac_readreg,
+ [VFTA ... VFTA+127] = &mac_readreg,
};
enum { NREADOPS = sizeof(macreg_readops) / sizeof(*macreg_readops) };
@@ -706,7 +770,7 @@ enum { NREADOPS = sizeof(macreg_readops) / sizeof(*macreg_readops) };
static void (*macreg_writeops[])(E1000State *, int, uint32_t) = {
putreg(PBA), putreg(EERD), putreg(SWSM), putreg(WUFC),
putreg(TDBAL), putreg(TDBAH), putreg(TXDCTL), putreg(RDBAH),
- putreg(RDBAL), putreg(LEDCTL),
+ putreg(RDBAL), putreg(LEDCTL), putreg(CTRL), putreg(VET),
[TDLEN] = set_dlen, [RDLEN] = set_dlen, [TCTL] = set_tctl,
[TDT] = set_tctl, [MDIC] = set_mdic, [ICS] = set_ics,
[TDH] = set_16bit, [RDH] = set_16bit, [RDT] = set_rdt,
@@ -714,6 +778,7 @@ static void (*macreg_writeops[])(E1000State *, int, uint32_t) = {
[EECD] = set_eecd, [RCTL] = set_rx_control,
[RA ... RA+31] = &mac_writereg,
[MTA ... MTA+127] = &mac_writereg,
+ [VFTA ... VFTA+127] = &mac_writereg,
};
enum { NWRITEOPS = sizeof(macreg_writeops) / sizeof(*macreg_writeops) };
@@ -788,13 +853,14 @@ static const int mac_regtosave[] = {
LEDCTL, MANC, MDIC, MPC, PBA, RCTL, RDBAH, RDBAL, RDH,
RDLEN, RDT, STATUS, SWSM, TCTL, TDBAH, TDBAL, TDH, TDLEN,
TDT, TORH, TORL, TOTH, TOTL, TPR, TPT, TXDCTL, WUFC,
+ VET,
};
enum { MAC_NSAVE = sizeof mac_regtosave/sizeof *mac_regtosave };
static const struct {
int size;
int array0;
-} mac_regarraystosave[] = { {32, RA}, {128, MTA} };
+} mac_regarraystosave[] = { {32, RA}, {128, MTA}, {128, VFTA} };
enum { MAC_NARRAYS = sizeof mac_regarraystosave/sizeof *mac_regarraystosave };
static void