vid 89 arch/i386/i386/powernow-k7.c #define WRITE_FIDVID(fid, vid, ctrl) \
vid 91 arch/i386/i386/powernow-k7.c (((ctrl) << 32) | (1ULL << 16) | ((vid) << 8) | (fid)))
vid 109 arch/i386/i386/powernow-k7.c int vid;
vid 133 arch/i386/i386/powernow-k7.c uint8_t vid; /* Max Voltage code */
vid 155 arch/i386/i386/powernow-k7.c int cvid, cfid, vid = 0, fid = 0;
vid 165 arch/i386/i386/powernow-k7.c vid = cstate->state_table[i].vid;
vid 167 arch/i386/i386/powernow-k7.c if (fid == 0 || vid == 0)
vid 177 arch/i386/i386/powernow-k7.c if (fid == cfid && vid == cvid)
vid 183 arch/i386/i386/powernow-k7.c ctl |= PN7_CTR_VID(vid);
vid 191 arch/i386/i386/powernow-k7.c if (vid != cvid)
vid 205 arch/i386/i386/powernow-k7.c if (cfid == fid || cvid == vid)
vid 221 arch/i386/i386/powernow-k7.c state.vid = *p++;
vid 248 arch/i386/i386/powernow-k7.c unsigned int fid, unsigned int vid)
vid 278 arch/i386/i386/powernow-k7.c && vid == pst->vid) {
vid 312 arch/i386/i386/powernow-k7.c state.vid = PN7_ACPI_CTRL_TO_VID(ctrl);
vid 92 arch/i386/i386/powernow-k8.c #define WRITE_FIDVID(fid, vid, ctrl) \
vid 94 arch/i386/i386/powernow-k8.c (((ctrl) << 32) | (1ULL << 16) | ((vid) << 8) | (fid)))
vid 107 arch/i386/i386/powernow-k8.c uint8_t vid;
vid 135 arch/i386/i386/powernow-k8.c uint8_t vid;
vid 174 arch/i386/i386/powernow-k8.c int cfid, cvid, fid = 0, vid = 0, rvo;
vid 194 arch/i386/i386/powernow-k8.c vid = cstate->state_table[i].vid;
vid 196 arch/i386/i386/powernow-k8.c if (fid == cfid && vid == cvid)
vid 203 arch/i386/i386/powernow-k8.c while (cvid > vid) {
vid 258 arch/i386/i386/powernow-k8.c if (cvid != vid) {
vid 259 arch/i386/i386/powernow-k8.c WRITE_FIDVID(cfid, vid, 1ULL);
vid 266 arch/i386/i386/powernow-k8.c if (cfid == fid || cvid == vid)
vid 282 arch/i386/i386/powernow-k8.c state.vid = *p++;
vid 305 arch/i386/i386/powernow-k8.c unsigned int fid, unsigned int vid)
vid 333 arch/i386/i386/powernow-k8.c pst->fid == fid && pst->vid == vid) {
vid 364 arch/i386/i386/powernow-k8.c state.vid = PN8_ACPI_CTRL_TO_VID(ctrl);
vid 179 arch/i386/isa/ahc_isa.c u_int8_t vid[EISA_NVIDREGS], pid[EISA_NPIDREGS];
vid 186 arch/i386/isa/ahc_isa.c vid[i] = bus_space_read_1(iot, ioh, AHC_ISA_VID + i);
vid 190 arch/i386/isa/ahc_isa.c if (EISA_VENDID_NODEV(vid)) {
vid 194 arch/i386/isa/ahc_isa.c printf("\t(0x%x, 0x%x)\n", vid[0], vid[1]);
vid 200 arch/i386/isa/ahc_isa.c if (EISA_VENDID_IDDELAY(vid)) {
vid 214 arch/i386/isa/ahc_isa.c idstring[0] = EISA_VENDID_0(vid);
vid 215 arch/i386/isa/ahc_isa.c idstring[1] = EISA_VENDID_1(vid);
vid 216 arch/i386/isa/ahc_isa.c idstring[2] = EISA_VENDID_2(vid);
vid 83 dev/eisa/eisareg.h #define EISA_VENDID_NODEV(vid) \
vid 84 dev/eisa/eisareg.h (((vid)[0] & 0x80) != 0)
vid 85 dev/eisa/eisareg.h #define EISA_VENDID_IDDELAY(vid) \
vid 86 dev/eisa/eisareg.h (((vid)[0] & 0xf0) == 0x70)
vid 87 dev/eisa/eisareg.h #define EISA_VENDID_0(vid) \
vid 88 dev/eisa/eisareg.h ((((vid)[0] & 0x7c) >> 2) + '@')
vid 89 dev/eisa/eisareg.h #define EISA_VENDID_1(vid) \
vid 90 dev/eisa/eisareg.h (((((vid)[0] & 0x03) << 3) | (((vid)[1] & 0xe0) >> 5)) + '@')
vid 91 dev/eisa/eisareg.h #define EISA_VENDID_2(vid) \
vid 92 dev/eisa/eisareg.h (((vid)[1] & 0x1f) + '@')
vid 1068 dev/pci/azalia.c this->vid = id;
vid 540 dev/pci/azalia.h uint32_t vid; /* codec vendor/device ID */
vid 122 dev/pci/azalia_codec.c DPRINTF(("%s: vid=%08x subid=%08x\n", __func__, this->vid, this->subid));
vid 129 dev/pci/azalia_codec.c switch (this->vid) {
vid 61 dev/pci/pcireg.h #define PCI_ID_CODE(vid,pid) \
vid 62 dev/pci/pcireg.h ((((vid) & PCI_VENDOR_MASK) << PCI_VENDOR_SHIFT) | \
vid 95 isofs/udf/udf_subr.c char vid[32];
vid 154 isofs/udf/udf_subr.c if (udf_transname(pvd->vol_id, vid, sizeof(pvd->vol_id) - 1, NULL))
vid 155 isofs/udf/udf_subr.c strlcpy(lp->d_typename, vid, sizeof(lp->d_typename));