1093454e2SDmitry Fleytman /* 2093454e2SDmitry Fleytman * QEMU e1000(e) emulation - shared code 3093454e2SDmitry Fleytman * 4093454e2SDmitry Fleytman * Copyright (c) 2008 Qumranet 5093454e2SDmitry Fleytman * 6093454e2SDmitry Fleytman * Based on work done by: 7093454e2SDmitry Fleytman * Nir Peleg, Tutis Systems Ltd. for Qumranet Inc. 8093454e2SDmitry Fleytman * Copyright (c) 2007 Dan Aloni 9093454e2SDmitry Fleytman * Copyright (c) 2004 Antony T Curtis 10093454e2SDmitry Fleytman * 11093454e2SDmitry Fleytman * This library is free software; you can redistribute it and/or 12093454e2SDmitry Fleytman * modify it under the terms of the GNU Lesser General Public 13093454e2SDmitry Fleytman * License as published by the Free Software Foundation; either 147cd2a9faSChetan Pant * version 2.1 of the License, or (at your option) any later version. 15093454e2SDmitry Fleytman * 16093454e2SDmitry Fleytman * This library is distributed in the hope that it will be useful, 17093454e2SDmitry Fleytman * but WITHOUT ANY WARRANTY; without even the implied warranty of 18093454e2SDmitry Fleytman * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 19093454e2SDmitry Fleytman * Lesser General Public License for more details. 20093454e2SDmitry Fleytman * 21093454e2SDmitry Fleytman * You should have received a copy of the GNU Lesser General Public 22093454e2SDmitry Fleytman * License along with this library; if not, see <http://www.gnu.org/licenses/>. 23093454e2SDmitry Fleytman */ 24093454e2SDmitry Fleytman 25093454e2SDmitry Fleytman #include "qemu/osdep.h" 26872a2b7cSPhilippe Mathieu-Daudé #include "qemu/units.h" 27b7728c9fSAkihiko Odaki #include "hw/net/mii.h" 28edf5ca5dSMarkus Armbruster #include "hw/pci/pci_device.h" 292fe63579SAkihiko Odaki #include "net/eth.h" 30093454e2SDmitry Fleytman #include "net/net.h" 31093454e2SDmitry Fleytman 32c9653b77SAkihiko Odaki #include "e1000_common.h" 33093454e2SDmitry Fleytman #include "e1000x_common.h" 34093454e2SDmitry Fleytman 35093454e2SDmitry Fleytman #include "trace.h" 36093454e2SDmitry Fleytman 37093454e2SDmitry Fleytman bool e1000x_rx_ready(PCIDevice *d, uint32_t *mac) 38093454e2SDmitry Fleytman { 39093454e2SDmitry Fleytman bool link_up = mac[STATUS] & E1000_STATUS_LU; 40093454e2SDmitry Fleytman bool rx_enabled = mac[RCTL] & E1000_RCTL_EN; 41093454e2SDmitry Fleytman bool pci_master = d->config[PCI_COMMAND] & PCI_COMMAND_MASTER; 42093454e2SDmitry Fleytman 43093454e2SDmitry Fleytman if (!link_up || !rx_enabled || !pci_master) { 44093454e2SDmitry Fleytman trace_e1000x_rx_can_recv_disabled(link_up, rx_enabled, pci_master); 45093454e2SDmitry Fleytman return false; 46093454e2SDmitry Fleytman } 47093454e2SDmitry Fleytman 48093454e2SDmitry Fleytman return true; 49093454e2SDmitry Fleytman } 50093454e2SDmitry Fleytman 51d921db0aSAkihiko Odaki bool e1000x_is_vlan_packet(const void *buf, uint16_t vet) 52093454e2SDmitry Fleytman { 532fe63579SAkihiko Odaki uint16_t eth_proto = lduw_be_p(&PKT_GET_ETH_HDR(buf)->h_proto); 54093454e2SDmitry Fleytman bool res = (eth_proto == vet); 55093454e2SDmitry Fleytman 56093454e2SDmitry Fleytman trace_e1000x_vlan_is_vlan_pkt(res, eth_proto, vet); 57093454e2SDmitry Fleytman 58093454e2SDmitry Fleytman return res; 59093454e2SDmitry Fleytman } 60093454e2SDmitry Fleytman 61e9e5b930SAkihiko Odaki bool e1000x_rx_vlan_filter(uint32_t *mac, const struct vlan_header *vhdr) 62e9e5b930SAkihiko Odaki { 63e9e5b930SAkihiko Odaki if (e1000x_vlan_rx_filter_enabled(mac)) { 64e9e5b930SAkihiko Odaki uint16_t vid = lduw_be_p(&vhdr->h_tci); 65e9e5b930SAkihiko Odaki uint32_t vfta = 66e9e5b930SAkihiko Odaki ldl_le_p((uint32_t *)(mac + VFTA) + 67e9e5b930SAkihiko Odaki ((vid >> E1000_VFTA_ENTRY_SHIFT) & E1000_VFTA_ENTRY_MASK)); 68e9e5b930SAkihiko Odaki if ((vfta & (1 << (vid & E1000_VFTA_ENTRY_BIT_SHIFT_MASK))) == 0) { 69e9e5b930SAkihiko Odaki trace_e1000x_rx_flt_vlan_mismatch(vid); 70e9e5b930SAkihiko Odaki return false; 71e9e5b930SAkihiko Odaki } 72e9e5b930SAkihiko Odaki 73e9e5b930SAkihiko Odaki trace_e1000x_rx_flt_vlan_match(vid); 74e9e5b930SAkihiko Odaki } 75e9e5b930SAkihiko Odaki 76e9e5b930SAkihiko Odaki return true; 77e9e5b930SAkihiko Odaki } 78e9e5b930SAkihiko Odaki 79e9e5b930SAkihiko Odaki bool e1000x_rx_group_filter(uint32_t *mac, const struct eth_header *ehdr) 80093454e2SDmitry Fleytman { 81093454e2SDmitry Fleytman static const int mta_shift[] = { 4, 3, 2, 0 }; 82093454e2SDmitry Fleytman uint32_t f, ra[2], *rp, rctl = mac[RCTL]; 83093454e2SDmitry Fleytman 84e9e5b930SAkihiko Odaki if (is_broadcast_ether_addr(ehdr->h_dest)) { 85e9e5b930SAkihiko Odaki if (rctl & E1000_RCTL_BAM) { 86e9e5b930SAkihiko Odaki return true; 87e9e5b930SAkihiko Odaki } 88e9e5b930SAkihiko Odaki } else if (is_multicast_ether_addr(ehdr->h_dest)) { 89e9e5b930SAkihiko Odaki if (rctl & E1000_RCTL_MPE) { 90e9e5b930SAkihiko Odaki return true; 91e9e5b930SAkihiko Odaki } 92e9e5b930SAkihiko Odaki } else { 93e9e5b930SAkihiko Odaki if (rctl & E1000_RCTL_UPE) { 94e9e5b930SAkihiko Odaki return true; 95e9e5b930SAkihiko Odaki } 96e9e5b930SAkihiko Odaki } 97e9e5b930SAkihiko Odaki 98093454e2SDmitry Fleytman for (rp = mac + RA; rp < mac + RA + 32; rp += 2) { 99093454e2SDmitry Fleytman if (!(rp[1] & E1000_RAH_AV)) { 100093454e2SDmitry Fleytman continue; 101093454e2SDmitry Fleytman } 102093454e2SDmitry Fleytman ra[0] = cpu_to_le32(rp[0]); 103093454e2SDmitry Fleytman ra[1] = cpu_to_le32(rp[1]); 104e9e5b930SAkihiko Odaki if (!memcmp(ehdr->h_dest, (uint8_t *)ra, ETH_ALEN)) { 105093454e2SDmitry Fleytman trace_e1000x_rx_flt_ucast_match((int)(rp - mac - RA) / 2, 106e9e5b930SAkihiko Odaki MAC_ARG(ehdr->h_dest)); 107093454e2SDmitry Fleytman return true; 108093454e2SDmitry Fleytman } 109093454e2SDmitry Fleytman } 110e9e5b930SAkihiko Odaki trace_e1000x_rx_flt_ucast_mismatch(MAC_ARG(ehdr->h_dest)); 111093454e2SDmitry Fleytman 112093454e2SDmitry Fleytman f = mta_shift[(rctl >> E1000_RCTL_MO_SHIFT) & 3]; 113e9e5b930SAkihiko Odaki f = (((ehdr->h_dest[5] << 8) | ehdr->h_dest[4]) >> f) & 0xfff; 114093454e2SDmitry Fleytman if (mac[MTA + (f >> 5)] & (1 << (f & 0x1f))) { 115093454e2SDmitry Fleytman return true; 116093454e2SDmitry Fleytman } 117093454e2SDmitry Fleytman 118e9e5b930SAkihiko Odaki trace_e1000x_rx_flt_inexact_mismatch(MAC_ARG(ehdr->h_dest), 119093454e2SDmitry Fleytman (rctl >> E1000_RCTL_MO_SHIFT) & 3, 120093454e2SDmitry Fleytman f >> 5, 121093454e2SDmitry Fleytman mac[MTA + (f >> 5)]); 122093454e2SDmitry Fleytman 123093454e2SDmitry Fleytman return false; 124093454e2SDmitry Fleytman } 125093454e2SDmitry Fleytman 126093454e2SDmitry Fleytman bool e1000x_hw_rx_enabled(uint32_t *mac) 127093454e2SDmitry Fleytman { 128093454e2SDmitry Fleytman if (!(mac[STATUS] & E1000_STATUS_LU)) { 129093454e2SDmitry Fleytman trace_e1000x_rx_link_down(mac[STATUS]); 130093454e2SDmitry Fleytman return false; 131093454e2SDmitry Fleytman } 132093454e2SDmitry Fleytman 133093454e2SDmitry Fleytman if (!(mac[RCTL] & E1000_RCTL_EN)) { 134093454e2SDmitry Fleytman trace_e1000x_rx_disabled(mac[RCTL]); 135093454e2SDmitry Fleytman return false; 136093454e2SDmitry Fleytman } 137093454e2SDmitry Fleytman 138093454e2SDmitry Fleytman return true; 139093454e2SDmitry Fleytman } 140093454e2SDmitry Fleytman 141093454e2SDmitry Fleytman bool e1000x_is_oversized(uint32_t *mac, size_t size) 142093454e2SDmitry Fleytman { 143*74349514SAkihiko Odaki size_t header_size = sizeof(struct eth_header) + sizeof(struct vlan_header); 144093454e2SDmitry Fleytman /* this is the size past which hardware will 145093454e2SDmitry Fleytman drop packets when setting LPE=0 */ 146*74349514SAkihiko Odaki size_t maximum_short_size = header_size + ETH_MTU; 147093454e2SDmitry Fleytman /* this is the size past which hardware will 148093454e2SDmitry Fleytman drop packets when setting LPE=1 */ 149*74349514SAkihiko Odaki size_t maximum_large_size = 16 * KiB - ETH_FCS_LEN; 150093454e2SDmitry Fleytman 151*74349514SAkihiko Odaki if ((size > maximum_large_size || 152*74349514SAkihiko Odaki (size > maximum_short_size && !(mac[RCTL] & E1000_RCTL_LPE))) 153093454e2SDmitry Fleytman && !(mac[RCTL] & E1000_RCTL_SBP)) { 154093454e2SDmitry Fleytman e1000x_inc_reg_if_not_full(mac, ROC); 155093454e2SDmitry Fleytman trace_e1000x_rx_oversized(size); 156093454e2SDmitry Fleytman return true; 157093454e2SDmitry Fleytman } 158093454e2SDmitry Fleytman 159093454e2SDmitry Fleytman return false; 160093454e2SDmitry Fleytman } 161093454e2SDmitry Fleytman 162093454e2SDmitry Fleytman void e1000x_restart_autoneg(uint32_t *mac, uint16_t *phy, QEMUTimer *timer) 163093454e2SDmitry Fleytman { 164093454e2SDmitry Fleytman e1000x_update_regs_on_link_down(mac, phy); 165093454e2SDmitry Fleytman trace_e1000x_link_negotiation_start(); 166093454e2SDmitry Fleytman timer_mod(timer, qemu_clock_get_ms(QEMU_CLOCK_VIRTUAL) + 500); 167093454e2SDmitry Fleytman } 168093454e2SDmitry Fleytman 169093454e2SDmitry Fleytman void e1000x_reset_mac_addr(NICState *nic, uint32_t *mac_regs, 170093454e2SDmitry Fleytman uint8_t *mac_addr) 171093454e2SDmitry Fleytman { 172093454e2SDmitry Fleytman int i; 173093454e2SDmitry Fleytman 174093454e2SDmitry Fleytman mac_regs[RA] = 0; 175093454e2SDmitry Fleytman mac_regs[RA + 1] = E1000_RAH_AV; 176093454e2SDmitry Fleytman for (i = 0; i < 4; i++) { 177093454e2SDmitry Fleytman mac_regs[RA] |= mac_addr[i] << (8 * i); 178093454e2SDmitry Fleytman mac_regs[RA + 1] |= 179093454e2SDmitry Fleytman (i < 2) ? mac_addr[i + 4] << (8 * i) : 0; 180093454e2SDmitry Fleytman } 181093454e2SDmitry Fleytman 182093454e2SDmitry Fleytman qemu_format_nic_info_str(qemu_get_queue(nic), mac_addr); 183093454e2SDmitry Fleytman trace_e1000x_mac_indicate(MAC_ARG(mac_addr)); 184093454e2SDmitry Fleytman } 185093454e2SDmitry Fleytman 186093454e2SDmitry Fleytman void e1000x_update_regs_on_autoneg_done(uint32_t *mac, uint16_t *phy) 187093454e2SDmitry Fleytman { 188093454e2SDmitry Fleytman e1000x_update_regs_on_link_up(mac, phy); 189b7728c9fSAkihiko Odaki phy[MII_ANLPAR] |= MII_ANLPAR_ACK; 190b7728c9fSAkihiko Odaki phy[MII_BMSR] |= MII_BMSR_AN_COMP; 191093454e2SDmitry Fleytman trace_e1000x_link_negotiation_done(); 192093454e2SDmitry Fleytman } 193093454e2SDmitry Fleytman 194093454e2SDmitry Fleytman void 195093454e2SDmitry Fleytman e1000x_core_prepare_eeprom(uint16_t *eeprom, 196093454e2SDmitry Fleytman const uint16_t *templ, 197093454e2SDmitry Fleytman uint32_t templ_size, 198093454e2SDmitry Fleytman uint16_t dev_id, 199093454e2SDmitry Fleytman const uint8_t *macaddr) 200093454e2SDmitry Fleytman { 201093454e2SDmitry Fleytman uint16_t checksum = 0; 202093454e2SDmitry Fleytman int i; 203093454e2SDmitry Fleytman 204093454e2SDmitry Fleytman memmove(eeprom, templ, templ_size); 205093454e2SDmitry Fleytman 206093454e2SDmitry Fleytman for (i = 0; i < 3; i++) { 207093454e2SDmitry Fleytman eeprom[i] = (macaddr[2 * i + 1] << 8) | macaddr[2 * i]; 208093454e2SDmitry Fleytman } 209093454e2SDmitry Fleytman 210093454e2SDmitry Fleytman eeprom[11] = eeprom[13] = dev_id; 211093454e2SDmitry Fleytman 212093454e2SDmitry Fleytman for (i = 0; i < EEPROM_CHECKSUM_REG; i++) { 213093454e2SDmitry Fleytman checksum += eeprom[i]; 214093454e2SDmitry Fleytman } 215093454e2SDmitry Fleytman 216093454e2SDmitry Fleytman checksum = (uint16_t) EEPROM_SUM - checksum; 217093454e2SDmitry Fleytman 218093454e2SDmitry Fleytman eeprom[EEPROM_CHECKSUM_REG] = checksum; 219093454e2SDmitry Fleytman } 220093454e2SDmitry Fleytman 221093454e2SDmitry Fleytman uint32_t 222093454e2SDmitry Fleytman e1000x_rxbufsize(uint32_t rctl) 223093454e2SDmitry Fleytman { 224093454e2SDmitry Fleytman rctl &= E1000_RCTL_BSEX | E1000_RCTL_SZ_16384 | E1000_RCTL_SZ_8192 | 225093454e2SDmitry Fleytman E1000_RCTL_SZ_4096 | E1000_RCTL_SZ_2048 | E1000_RCTL_SZ_1024 | 226093454e2SDmitry Fleytman E1000_RCTL_SZ_512 | E1000_RCTL_SZ_256; 227093454e2SDmitry Fleytman switch (rctl) { 228093454e2SDmitry Fleytman case E1000_RCTL_BSEX | E1000_RCTL_SZ_16384: 229093454e2SDmitry Fleytman return 16384; 230093454e2SDmitry Fleytman case E1000_RCTL_BSEX | E1000_RCTL_SZ_8192: 231093454e2SDmitry Fleytman return 8192; 232093454e2SDmitry Fleytman case E1000_RCTL_BSEX | E1000_RCTL_SZ_4096: 233093454e2SDmitry Fleytman return 4096; 234093454e2SDmitry Fleytman case E1000_RCTL_SZ_1024: 235093454e2SDmitry Fleytman return 1024; 236093454e2SDmitry Fleytman case E1000_RCTL_SZ_512: 237093454e2SDmitry Fleytman return 512; 238093454e2SDmitry Fleytman case E1000_RCTL_SZ_256: 239093454e2SDmitry Fleytman return 256; 240093454e2SDmitry Fleytman } 241093454e2SDmitry Fleytman return 2048; 242093454e2SDmitry Fleytman } 243093454e2SDmitry Fleytman 244093454e2SDmitry Fleytman void 245093454e2SDmitry Fleytman e1000x_update_rx_total_stats(uint32_t *mac, 246f3f9b726SAkihiko Odaki eth_pkt_types_e pkt_type, 247f3f9b726SAkihiko Odaki size_t pkt_size, 248f3f9b726SAkihiko Odaki size_t pkt_fcs_size) 249093454e2SDmitry Fleytman { 250093454e2SDmitry Fleytman static const int PRCregs[6] = { PRC64, PRC127, PRC255, PRC511, 251093454e2SDmitry Fleytman PRC1023, PRC1522 }; 252093454e2SDmitry Fleytman 253f3f9b726SAkihiko Odaki e1000x_increase_size_stats(mac, PRCregs, pkt_fcs_size); 254093454e2SDmitry Fleytman e1000x_inc_reg_if_not_full(mac, TPR); 2558d689f6aStimothee.cocault@gmail.com e1000x_inc_reg_if_not_full(mac, GPRC); 256093454e2SDmitry Fleytman /* TOR - Total Octets Received: 257093454e2SDmitry Fleytman * This register includes bytes received in a packet from the <Destination 258093454e2SDmitry Fleytman * Address> field through the <CRC> field, inclusively. 259093454e2SDmitry Fleytman * Always include FCS length (4) in size. 260093454e2SDmitry Fleytman */ 261f3f9b726SAkihiko Odaki e1000x_grow_8reg_if_not_full(mac, TORL, pkt_size + 4); 262f3f9b726SAkihiko Odaki e1000x_grow_8reg_if_not_full(mac, GORCL, pkt_size + 4); 263f3f9b726SAkihiko Odaki 264f3f9b726SAkihiko Odaki switch (pkt_type) { 265f3f9b726SAkihiko Odaki case ETH_PKT_BCAST: 266f3f9b726SAkihiko Odaki e1000x_inc_reg_if_not_full(mac, BPRC); 267f3f9b726SAkihiko Odaki break; 268f3f9b726SAkihiko Odaki 269f3f9b726SAkihiko Odaki case ETH_PKT_MCAST: 270f3f9b726SAkihiko Odaki e1000x_inc_reg_if_not_full(mac, MPRC); 271f3f9b726SAkihiko Odaki break; 272f3f9b726SAkihiko Odaki 273f3f9b726SAkihiko Odaki default: 274f3f9b726SAkihiko Odaki break; 275f3f9b726SAkihiko Odaki } 276093454e2SDmitry Fleytman } 277093454e2SDmitry Fleytman 278093454e2SDmitry Fleytman void 279093454e2SDmitry Fleytman e1000x_increase_size_stats(uint32_t *mac, const int *size_regs, int size) 280093454e2SDmitry Fleytman { 281093454e2SDmitry Fleytman if (size > 1023) { 282093454e2SDmitry Fleytman e1000x_inc_reg_if_not_full(mac, size_regs[5]); 283093454e2SDmitry Fleytman } else if (size > 511) { 284093454e2SDmitry Fleytman e1000x_inc_reg_if_not_full(mac, size_regs[4]); 285093454e2SDmitry Fleytman } else if (size > 255) { 286093454e2SDmitry Fleytman e1000x_inc_reg_if_not_full(mac, size_regs[3]); 287093454e2SDmitry Fleytman } else if (size > 127) { 288093454e2SDmitry Fleytman e1000x_inc_reg_if_not_full(mac, size_regs[2]); 289093454e2SDmitry Fleytman } else if (size > 64) { 290093454e2SDmitry Fleytman e1000x_inc_reg_if_not_full(mac, size_regs[1]); 291093454e2SDmitry Fleytman } else if (size == 64) { 292093454e2SDmitry Fleytman e1000x_inc_reg_if_not_full(mac, size_regs[0]); 293093454e2SDmitry Fleytman } 294093454e2SDmitry Fleytman } 295093454e2SDmitry Fleytman 296093454e2SDmitry Fleytman void 297093454e2SDmitry Fleytman e1000x_read_tx_ctx_descr(struct e1000_context_desc *d, 298093454e2SDmitry Fleytman e1000x_txd_props *props) 299093454e2SDmitry Fleytman { 300093454e2SDmitry Fleytman uint32_t op = le32_to_cpu(d->cmd_and_length); 301093454e2SDmitry Fleytman 302093454e2SDmitry Fleytman props->ipcss = d->lower_setup.ip_fields.ipcss; 303093454e2SDmitry Fleytman props->ipcso = d->lower_setup.ip_fields.ipcso; 304093454e2SDmitry Fleytman props->ipcse = le16_to_cpu(d->lower_setup.ip_fields.ipcse); 305093454e2SDmitry Fleytman props->tucss = d->upper_setup.tcp_fields.tucss; 306093454e2SDmitry Fleytman props->tucso = d->upper_setup.tcp_fields.tucso; 307093454e2SDmitry Fleytman props->tucse = le16_to_cpu(d->upper_setup.tcp_fields.tucse); 308093454e2SDmitry Fleytman props->paylen = op & 0xfffff; 309093454e2SDmitry Fleytman props->hdr_len = d->tcp_seg_setup.fields.hdr_len; 310093454e2SDmitry Fleytman props->mss = le16_to_cpu(d->tcp_seg_setup.fields.mss); 311093454e2SDmitry Fleytman props->ip = (op & E1000_TXD_CMD_IP) ? 1 : 0; 312093454e2SDmitry Fleytman props->tcp = (op & E1000_TXD_CMD_TCP) ? 1 : 0; 313093454e2SDmitry Fleytman props->tse = (op & E1000_TXD_CMD_TSE) ? 1 : 0; 314093454e2SDmitry Fleytman } 3155fb7d149SAkihiko Odaki 3165fb7d149SAkihiko Odaki void e1000x_timestamp(uint32_t *mac, int64_t timadj, size_t lo, size_t hi) 3175fb7d149SAkihiko Odaki { 3185fb7d149SAkihiko Odaki int64_t ns = qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL); 3195fb7d149SAkihiko Odaki uint32_t timinca = mac[TIMINCA]; 3205fb7d149SAkihiko Odaki uint32_t incvalue = timinca & E1000_TIMINCA_INCVALUE_MASK; 3215fb7d149SAkihiko Odaki uint32_t incperiod = MAX(timinca >> E1000_TIMINCA_INCPERIOD_SHIFT, 1); 3225fb7d149SAkihiko Odaki int64_t timestamp = timadj + muldiv64(ns, incvalue, incperiod * 16); 3235fb7d149SAkihiko Odaki 3245fb7d149SAkihiko Odaki mac[lo] = timestamp & 0xffffffff; 3255fb7d149SAkihiko Odaki mac[hi] = timestamp >> 32; 3265fb7d149SAkihiko Odaki } 3275fb7d149SAkihiko Odaki 3285fb7d149SAkihiko Odaki void e1000x_set_timinca(uint32_t *mac, int64_t *timadj, uint32_t val) 3295fb7d149SAkihiko Odaki { 3305fb7d149SAkihiko Odaki int64_t ns = qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL); 3315fb7d149SAkihiko Odaki uint32_t old_val = mac[TIMINCA]; 3325fb7d149SAkihiko Odaki uint32_t old_incvalue = old_val & E1000_TIMINCA_INCVALUE_MASK; 3335fb7d149SAkihiko Odaki uint32_t old_incperiod = MAX(old_val >> E1000_TIMINCA_INCPERIOD_SHIFT, 1); 3345fb7d149SAkihiko Odaki uint32_t incvalue = val & E1000_TIMINCA_INCVALUE_MASK; 3355fb7d149SAkihiko Odaki uint32_t incperiod = MAX(val >> E1000_TIMINCA_INCPERIOD_SHIFT, 1); 3365fb7d149SAkihiko Odaki 3375fb7d149SAkihiko Odaki mac[TIMINCA] = val; 3385fb7d149SAkihiko Odaki *timadj += (muldiv64(ns, incvalue, incperiod) - muldiv64(ns, old_incvalue, old_incperiod)) / 16; 3395fb7d149SAkihiko Odaki } 340