* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
+/*
+ * This file initializes the CPU cores for voltage and frequency settings
+ * in the different power states.
+ */
+/*
+
+checklist (functions are in this file if no source file named)
+Fam10 Bios and Kernel Development Guide #31116, rev 3.48, April 22, 2010
+
+2.4.2.6 Requirements for p-states
+
+1.- F3x[84:80] According to table 100 : prep_fid_change
+
+2.- COF/VID :
+ 2.4.2.9.1 Steps 1,3-6 and warning for 2,7 if they apply
+ fixPsNbVidBeforeWR(...)
+ 2.4.2.9.1 Step 8 enable_fid_change
+ We do this for all nodes, I don't understand BKDG 100% on
+ whether this is or isn't meant by "on the local
+ processor". Must be OK.
+ 2.4.2.9.1 Steps 9-10 (repeat 1-7 and reset) romstage.c/init_cpus ?
+ 2.4.2.9.1 Steps 11-12 init_fidvid_stage2
+ 2.4.2.9.2 DualPlane PVI : Not supported, don't know how to detect,
+ needs specific circuitry.
+
+3.- 2.4.2.7 dualPlaneOnly(dev)
+
+4.- 2.4.2.8 applyBoostFIDOffset(dev)
+
+5.- enableNbPState1(dev)
+
+6.- 2.4.1.7
+ a) UpdateSinglePlaneNbVid()
+ b) setVSRamp(), called from prep_fid_change
+ c) prep_fid_change
+ d) improperly, for lack of voltage regulator details?,
+ F3xA0[PsiVidEn] in defaults.h
+ F3xA0[PsiVid] in init_cpus.c AMD_SetupPSIVID_d (before prep_fid_change)
+
+7.- TODO (Core Performance Boost is only available in revision E cpus, and we
+ don't seem to support those yet, at least they don't have any
+ constant in amddefs.h )
+
+8.- FIXME ? Transition to min Pstate according to 2.4.2.15.3 is required
+ by 2.4.2.6 after warm reset. But 2.4.2.15 states that it is not required
+ if the warm reset is issued by coreboot to update NbFid. So it is required
+ or not ? How can I tell who issued warm reset ?
+ Coreboot transitions to P0 instead, which is not recommended, and does
+ not follow 2.4.2.15.2 to do so.
+
+9.- TODO Requires information on current delivery capability
+ (depends on mainboard and maybe power supply ?). One might use a config
+ option with the maximum number of Ampers that the board can deliver to CPU.
+
+10.- [Multiprocessor] TODO 2.4.2.12
+ [Uniprocessor] FIXME ? We call setPStateMaxVal() in init_fidvid_stage2,
+ but not sure this is what is meant by "Determine the valid set of
+ P-states based on enabled P-states indicated
+ in MSRC001_00[68:64][PstateEn]" in 2.4.2.6-10
+
+11.- finalPstateChange() from init_fidvid_Stage2 (BKDG says just "may", anyway)
+
+12.- generate ACPI for p-states. FIXME
+ Needs more assesment. There's some kind of fixed support that
+ does not seem to depend on CPU revision or actual MSRC001_00[68:64]
+ as BKDG apparently requires.
+ http://www.coreboot.org/ACPI#CPU_Power_Management
+ At least for Tilapia board:
+ src/mainboard/<vendor>/<model>/acpi_tables.c write_acpi_tables(...) calls
+ acpi_add_ssdt_pstates(...)
+ in /src/northbridge/amd/amdfam10/amdfam10_acpi.c
+ which apparently copies them from static info in
+ src/mainboard/<vendor>/<model>/acpi/cpstate.asl
+
+"must also be completed"
+
+a.- PllLockTime set in ruleset in defaults.h
+ BKDG says set it "If MSRC001_00[68:64][CpuFid] is different between
+ any two enabled P-states", but since it does not say "only if"
+ I guess it is safe to do it always.
+
+b.- prep_fid_change(...)
+
+ */
#if CONFIG_SET_FIDVID
+
#include <northbridge/amd/amdht/AsPsDefs.h>
static inline void print_debug_fv(const char *str, u32 val)
}
}
+static void applyBoostFIDOffset( device_t dev ) {
+ // BKDG 2.4.2.8
+ // revision E only, but E is apparently not supported yet, therefore untested
+ if ((cpuid_edx(0x80000007) & CPB_MASK)
+ && ((cpuid_ecx(0x80000008) & NC_MASK) ==5) ) {
+ u32 core = get_node_core_id_x().coreid;
+ u32 asymetricBoostThisCore = ((pci_read_config32(dev, 0x10C) >> (core*2))) & 3;
+ msr_t msr = rdmsr(PS_REG_BASE);
+ u32 cpuFid = msr.lo & PS_CPU_FID_MASK;
+ cpuFid = cpuFid + asymetricBoostThisCore;
+ msr.lo &= ~PS_CPU_FID_MASK;
+ msr.lo |= cpuFid ;
+ wrmsr(PS_REG_BASE , msr);
+
+ }
+}
+
+static void enableNbPState1( device_t dev ) {
+ u32 cpuRev = mctGetLogicalCPUID(0xFF);
+ if (cpuRev & AMD_FAM10_C3) {
+ u32 nbPState = (pci_read_config32(dev, 0x1F0) & NB_PSTATE_MASK);
+ if ( nbPState){
+ u32 nbVid1 = (pci_read_config32(dev, 0x1F4) & NB_VID1_MASK) >> NB_VID1_SHIFT;
+ u32 i;
+ for (i = nbPState; i < NM_PS_REG; i++) {
+ msr_t msr = rdmsr(PS_REG_BASE + i);
+ if (msr.hi & PS_EN_MASK ) {
+ msr.hi |= NB_DID_M_ON;
+ msr.lo &= NB_VID_MASK_OFF;
+ msr.lo |= ( nbVid1 << NB_VID_POS);
+ wrmsr(PS_REG_BASE + i, msr);
+ }
+ }
+ }
+ }
+}
+
+static u8 setPStateMaxVal( device_t dev ) {
+ u8 i,maxpstate=0;
+ for (i = 0; i < NM_PS_REG; i++) {
+ msr_t msr = rdmsr(PS_REG_BASE + i);
+ if (msr.hi & PS_IDD_VALUE_MASK) {
+ msr.hi |= PS_EN_MASK ;
+ wrmsr(PS_REG_BASE + i, msr);
+ }
+ if (msr.hi | PS_EN_MASK) {
+ maxpstate = i;
+ }
+ }
+ //FIXME: CPTC2 and HTC_REG should get max per node, not per core ?
+ u32 reg = pci_read_config32(dev, CPTC2);
+ reg &= PS_MAX_VAL_MASK;
+ reg |= (maxpstate << PS_MAX_VAL_POS);
+ pci_write_config32(dev, CPTC2,reg);
+ return maxpstate;
+}
+
+static void dualPlaneOnly( device_t dev ) {
+ // BKDG 2.4.2.7
+
+ u32 cpuRev = mctGetLogicalCPUID(0xFF);
+ if ((mctGetProcessorPackageType() == AMD_PKGTYPE_AM3_2r2)
+ && (cpuRev & AMD_DR_Cx)) { // should be rev C or rev E but there's no constant for E
+ if ( (pci_read_config32(dev, 0x1FC) & DUAL_PLANE_ONLY_MASK)
+ && (pci_read_config32(dev, 0xA0) & PVI_MODE) ){
+ if (cpuid_edx(0x80000007) & CPB_MASK) {
+ // revision E only, but E is apparently not supported yet, therefore untested
+ msr_t minPstate = rdmsr(0xC0010065);
+ wrmsr(0xC0010065, rdmsr(0xC0010068) );
+ wrmsr(0xC0010068,minPstate);
+ } else {
+ msr_t msr;
+ msr.lo=0; msr.hi=0;
+ wrmsr(0xC0010064, rdmsr(0xC0010068) );
+ wrmsr(0xC0010068, msr );
+ }
+
+ //FIXME: CPTC2 and HTC_REG should get max per node, not per core ?
+ u8 maxpstate = setPStateMaxVal(dev);
+
+ u32 reg = pci_read_config32(dev, HTC_REG);
+ reg &= HTC_PS_LMT_MASK;
+ reg |= (maxpstate << PS_LIMIT_POS);
+ pci_write_config32(dev, HTC_REG,reg);
+
+ }
+ }
+}
+
+static int vidTo100uV(u8 vid)
+{// returns voltage corresponding to vid in tenths of mV, i.e. hundreds of uV
+ // BKDG #31116 rev 3.48 2.4.1.6
+ int voltage;
+ if (vid >= 0x7c) {
+ voltage = 0;
+ } else {
+ voltage = (15500 - (125*vid));
+ }
+ return voltage;
+}
+
static void setVSRamp(device_t dev) {
- /* BKDG r31116 2010-04-22 2.4.1.7 step b F3xD8[VSRampTime]
- * If this field accepts 8 values between 10 and 500 us why
- * does page 324 say "BIOS should set this field to 001b."
+ /* BKDG r31116 2010-04-22 2.4.1.7 step b F3xD8[VSRampTime]
+ * If this field accepts 8 values between 10 and 500 us why
+ * does page 324 say "BIOS should set this field to 001b."
* (20 us) ?
* Shouldn't it depend on the voltage regulators, mainboard
- * or something ?
- */
+ * or something ?
+ */
u32 dword;
dword = pci_read_config32(dev, 0xd8);
dword &= VSRAMP_MASK;
/* This function calculates the VsSlamTime using the range of possible
* voltages instead of a hardcoded 200us.
- * Note:This function is called from setFidVidRegs and setUserPs after
- * programming a custom Pstate.
+ * Note: his function is called only from prep_fid_change,
+ * and that from init_cpus.c finalize_node_setup()
+ * (after set AMD MSRs and init ht )
*/
+ /* BKDG r31116 2010-04-22 2.4.1.7 step b F3xD8[VSSlamTime] */
/* Calculate Slam Time
- * Vslam = 0.4us/mV * Vp0 - (lowest out of Vpmin or Valt)
+ * Vslam = (mobileCPU?0.2:0.4)us/mV * (Vp0 - (lowest out of Vpmin or Valt)) mV
* In our case, we will scale the values by 100 to avoid
* decimals.
*/
pviModeFlag = 0;
/* Get P0's voltage */
+ /* MSRC001_00[68:64] are not programmed yet when called from
+ prep_fid_change, one might use F4x1[F0:E0] instead, but
+ theoretically MSRC001_00[68:64] are equal to them after
+ reset. */
msr = rdmsr(0xC0010064);
highVoltageVid = (u8) ((msr.lo >> PS_CPU_VID_SHFT) & 0x7F);
+ if (!(msr.hi & 0x80000000)) {
+ printk(BIOS_ERR,"P-state info in MSRC001_0064 is invalid !!!\n");
+ highVoltageVid = (u8) ((pci_read_config32(dev, 0x1E0)
+ >> PS_CPU_VID_SHFT) & 0x7F);
+ }
/* If SVI, we only care about CPU VID.
* If PVI, determine the higher voltage b/t NB and CPU
highVoltageVid = bValue;
}
- /* Get Pmin's index */
+ /* Get PSmax's index */
msr = rdmsr(0xC0010061);
- bValue = (u8) ((msr.lo >> PS_CUR_LIM_SHFT) & BIT_MASK_3);
+ bValue = (u8) ((msr.lo >> PS_MAX_VAL_SHFT) & BIT_MASK_3);
- /* Get Pmin's VID */
+ /* Get PSmax's VID */
msr = rdmsr(0xC0010064 + bValue);
lowVoltageVid = (u8) ((msr.lo >> PS_CPU_VID_SHFT) & 0x7F);
+ if (!(msr.hi & 0x80000000)) {
+ printk(BIOS_ERR,"P-state info in MSR%8x is invalid !!!\n",0xC0010064 + bValue);
+ lowVoltageVid = (u8) ((pci_read_config32(dev, 0x1E0+(bValue*4))
+ >> PS_CPU_VID_SHFT) & 0x7F);
+ }
/* If SVI, we only care about CPU VID.
* If PVI, determine the higher voltage b/t NB and CPU
- */
+ * BKDG 2.4.1.7 (a)
+ */
if (pviModeFlag) {
bValue = (u8) ((msr.lo >> PS_NB_VID_SHFT) & 0x7F);
if (lowVoltageVid > bValue)
if (lowVoltageVid < bValue)
lowVoltageVid = bValue;
- /* If Vids are 7Dh - 7Fh, force 7Ch to keep calculations linear */
- if (lowVoltageVid > 0x7C) {
- lowVoltageVid = 0x7C;
- if (highVoltageVid > 0x7C)
- highVoltageVid = 0x7C;
- }
-
- bValue = (u8) (lowVoltageVid - highVoltageVid);
+ u8 mobileFlag = get_platform_type() & AMD_PTYPE_MOB;
+ minimumSlamTime = (mobileFlag?2:4) * (vidTo100uV(highVoltageVid) - vidTo100uV(lowVoltageVid)); /* * 0.01 us */
- /* Each Vid increment is 12.5 mV. The minimum slam time is:
- * vidCodeDelta * 12.5mV * 0.4us/mV
- * Scale by 100 to avoid decimals.
- */
- minimumSlamTime = bValue * (125 * 4);
/* Now round up to nearest register setting.
* Note that if we don't find a value, we
}
static u32 nb_clk_did(int node, u32 cpuRev,u8 procPkg) {
- u8 link0isGen3 = 0;
+ u8 link0isGen3 = 0;
u8 offset;
if (AMD_CpuFindCapability(node, 0, &offset)) {
link0isGen3 = (AMD_checkLinkType(node, 0, offset) & HTPHY_LINKTYPE_HT3 );
}
- /* FIXME: NB_CLKDID should be 101b for AMD_DA_C2 in package
- S1g3 in link Gen3 mode, but I don't know how to tell
- package S1g3 from S1g4 */
- if ((cpuRev & AMD_DA_C2) && (procPkg & AMD_PKGTYPE_S1gX)
+ /* FIXME: NB_CLKDID should be 101b for AMD_DA_C2 in package
+ S1g3 in link Gen3 mode, but I don't know how to tell
+ package S1g3 from S1g4 */
+ if ((cpuRev & AMD_DA_C2) && (procPkg & AMD_PKGTYPE_S1gX)
&& link0isGen3) {
- return 5 ; /* divide clk by 128*/
- } else {
+ return 5 ; /* divide clk by 128*/
+ } else {
return 4 ; /* divide clk by 16 */
}
}
static u32 power_up_down(int node, u8 procPkg) {
u32 dword=0;
/* from CPU rev guide #41322 rev 3.74 June 2010 Table 26 */
- u8 singleLinkFlag = ((procPkg == AMD_PKGTYPE_AM3_2r2)
- || (procPkg == AMD_PKGTYPE_S1gX)
+ u8 singleLinkFlag = ((procPkg == AMD_PKGTYPE_AM3_2r2)
+ || (procPkg == AMD_PKGTYPE_S1gX)
|| (procPkg == AMD_PKGTYPE_ASB2));
if (singleLinkFlag) {
- /*
+ /*
* PowerStepUp=01000b - 50nS
* PowerStepDown=01000b - 50ns
*/
dword |= PW_STP_UP50 | PW_STP_DN50;
} else {
- u32 dispRefModeEn = (pci_read_config32(NODE_PCI(node,0),0x68) >> 24) & 1;
+ u32 dispRefModeEn = (pci_read_config32(NODE_PCI(node,0),0x68) >> 24) & 1;
u32 isocEn = 0;
- int j;
+ int j;
for(j=0 ; (j<4) && (!isocEn) ; j++ ) {
u8 offset;
if (AMD_CpuFindCapability(node, j, &offset)) {
isocEn = (pci_read_config32(NODE_PCI(node,0),offset+4) >>12) & 1;
}
- }
+ }
if (dispRefModeEn || isocEn) {
- dword |= PW_STP_UP50 | PW_STP_DN50 ;
+ dword |= PW_STP_UP50 | PW_STP_DN50 ;
} else {
/* get number of cores for PowerStepUp & PowerStepDown in server
1 core - 400nS - 0000b
}
}
}
- return dword;
+ return dword;
}
-static void config_clk_power_ctrl_reg0(int node, u32 cpuRev, u8 procPkg) {
+static void config_clk_power_ctrl_reg0(int node, u32 cpuRev, u8 procPkg) {
device_t dev = NODE_PCI(node, 3);
/* Program fields in Clock Power/Control register0 (F3xD4) */
/* set F3xD4 Clock Power/Timing Control 0 Register
* NbClkDidApplyAll=1b
- * NbClkDid=100b or 101b
+ * NbClkDid=100b or 101b
* PowerStepUp= "platform dependent"
* PowerStepDown= "platform dependent"
* LinkPllLink=01b
}
-static void config_power_ctrl_misc_reg(device_t dev,u32 cpuRev, u8 procPkg) {
+static void config_power_ctrl_misc_reg(device_t dev,u32 cpuRev, u8 procPkg) {
/* check PVI/SVI */
u32 dword = pci_read_config32(dev, 0xA0);
} else { /* SVI */
/* set slamVidMode to 1 for SVI */
dword |= VID_SLAM_ON;
-
- u32 dtemp = dword;
-
- /* Program F3xD8[PwrPlanes] according F3xA0[DulaVdd] */
- dword = pci_read_config32(dev, 0xD8);
-
- if (dtemp & DUAL_VDD_BIT)
- dword |= PWR_PLN_ON;
- else
- dword &= PWR_PLN_OFF;
- pci_write_config32(dev, 0xD8, dword);
-
- dword = dtemp;
}
/* set the rest of A0 since we're at it... */
-
- if (cpuRev & (AMD_DA_Cx | AMD_RB_C3 )) {
+
+ if (cpuRev & (AMD_DA_Cx | AMD_RB_C3 )) {
dword |= NB_PSTATE_FORCE_ON;
- } // else should we clear it ?
+ } // else should we clear it ?
if ((procPkg == AMD_PKGTYPE_G34) || (procPkg == AMD_PKGTYPE_C32) ) {
#endif
pci_write_config32(dev, 0xA0, dword);
}
-
-static void config_nb_syn_ptr_adj(device_t dev) {
+
+static void config_nb_syn_ptr_adj(device_t dev, u32 cpuRev) {
/* Note the following settings are additional from the ported
* function setFidVidRegs()
*/
+ /* adjust FIFO between nb and core clocks to max allowed
+ values (min latency) */
+ u32 nbPstate = pci_read_config32(dev,0x1f0) & NB_PSTATE_MASK;
+ u8 nbSynPtrAdj;
+ if ((cpuRev & (AMD_DR_Bx|AMD_DA_Cx) )
+ || ( (cpuRev & AMD_RB_C3) && (nbPstate!=0))) {
+ nbSynPtrAdj = 5;
+ } else {
+ nbSynPtrAdj = 6;
+ }
+
u32 dword = pci_read_config32(dev, 0xDc);
- dword |= 0x5 << 12; /* NbsynPtrAdj set to 0x5 per BKDG (needs reset) */
+ dword &= ~ NB_SYN_PTR_ADJ_MASK;
+ dword |= nbSynPtrAdj << NB_SYN_PTR_ADJ_POS;
+ /* NbsynPtrAdj set to 5 or 6 per BKDG (needs reset) */
pci_write_config32(dev, 0xdc, dword);
-
}
-static void config_acpi_pwr_state_ctrl_regs(device_t dev) {
- /* Rev B settings - FIXME: support other revs. */
- u32 dword = 0xA0E641E6;
+static void config_acpi_pwr_state_ctrl_regs(device_t dev, u32 cpuRev, u8 procPkg) {
+ /* step 1, chapter 2.4.2.6 of AMD Fam 10 BKDG #31116 Rev 3.48 22.4.2010 */
+ u32 dword;
+ u32 c1= 1;
+ if (cpuRev & (AMD_DR_Bx)) {
+ // will coreboot ever enable cache scrubbing ?
+ // if it does, will it be enough to check the current state
+ // or should we configure for what we'll set up later ?
+ dword = pci_read_config32(dev, 0x58);
+ u32 scrubbingCache = dword &
+ ( (0x1F << 16) // DCacheScrub
+ | (0x1F << 8) ); // L2Scrub
+ if (scrubbingCache) {
+ c1 = 0x80;
+ } else {
+ c1 = 0xA0;
+ }
+ } else { // rev C or later
+ // same doubt as cache scrubbing: ok to check current state ?
+ dword = pci_read_config32(dev, 0xDC);
+ u32 cacheFlushOnHalt = dword & (7 << 16);
+ if (!cacheFlushOnHalt) {
+ c1 = 0x80;
+ }
+ }
+ dword = (c1 << 24) | (0xE641E6);
pci_write_config32(dev, 0x84, dword);
- dword = 0xE600A681;
+
+
+ /* FIXME: BKDG Table 100 says if the link is at a Gen1
+frequency and the chipset does not support a 10us minimum LDTSTOP
+assertion time, then { If ASB2 && SVI then smaf001 = F6h else
+smaf001=87h. } else ... I hardly know what it means or how to check
+it from here, so I bluntly assume it is false and code here the else,
+which is easier */
+
+ u32 smaf001 = 0xE6;
+ if (cpuRev & AMD_DR_Bx ) {
+ smaf001 = 0xA6;
+ } else {
+ #if CONFIG_SVI_HIGH_FREQ
+ if (cpuRev & (AMD_RB_C3 | AMD_DA_C3)) {
+ smaf001 = 0xF6;
+ }
+ #endif
+ }
+ u32 fidvidChange = 0;
+ if (((cpuRev & AMD_DA_Cx) && (procPkg & AMD_PKGTYPE_S1gX))
+ || (cpuRev & AMD_RB_C3) ) {
+ fidvidChange=0x0B;
+ }
+ dword = (0xE6 << 24) | (fidvidChange << 16)
+ | (smaf001 << 8) | 0x81;
pci_write_config32(dev, 0x80, dword);
}
config_clk_power_ctrl_reg0(i,cpuRev,procPkg);
- config_power_ctrl_misc_reg(dev,cpuRev,procPkg);
- config_nb_syn_ptr_adj(dev);
+ config_power_ctrl_misc_reg(dev,cpuRev,procPkg);
+ config_nb_syn_ptr_adj(dev,cpuRev);
- config_acpi_pwr_state_ctrl_regs(dev);
+ config_acpi_pwr_state_ctrl_regs(dev,cpuRev,procPkg);
dword = pci_read_config32(dev, 0x80);
printk(BIOS_DEBUG, " F3x80: %08x \n", dword);
}
}
+static void waitCurrentPstate(u32 target_pstate){
+ msr_t initial_msr = rdmsr(TSC_MSR);
+ msr_t pstate_msr = rdmsr(CUR_PSTATE_MSR);
+ msr_t tsc_msr;
+ u8 timedout ;
+
+ /* paranoia ? I fear when we run fixPsNbVidBeforeWR we can enter a
+ * P1 that is a copy of P0, therefore has the same NB DID but the
+ * TSC will count twice per tick, so we have to wait for twice the
+ * count to achieve the desired timeout. But I'm likely to
+ * misunderstand this...
+ */
+ u32 corrected_timeout = ( (pstate_msr.lo==1)
+ && (!(rdmsr(0xC0010065).lo & NB_DID_M_ON)) ) ?
+ WAIT_PSTATE_TIMEOUT*2 : WAIT_PSTATE_TIMEOUT ;
+ msr_t timeout;
+
+ timeout.lo = initial_msr.lo + corrected_timeout ;
+ timeout.hi = initial_msr.hi;
+ if ( (((u32)0xffffffff) - initial_msr.lo) < corrected_timeout ) {
+ timeout.hi++;
+ }
+
+ // assuming TSC ticks at 1.25 ns per tick (800 MHz)
+ do {
+ pstate_msr = rdmsr(CUR_PSTATE_MSR);
+ tsc_msr = rdmsr(TSC_MSR);
+ timedout = (tsc_msr.hi > timeout.hi)
+ || ((tsc_msr.hi == timeout.hi) && (tsc_msr.lo > timeout.lo ));
+ } while ( (pstate_msr.lo != target_pstate) && (! timedout) ) ;
+
+ if (pstate_msr.lo != target_pstate) {
+ msr_t limit_msr = rdmsr(0xc0010061);
+ printk(BIOS_ERR, "*** Time out waiting for P-state %01x. Current P-state %01x P-state current limit MSRC001_0061=%02x\n", target_pstate, pstate_msr.lo, limit_msr.lo);
+
+ do { // should we just go on instead ?
+ pstate_msr = rdmsr(CUR_PSTATE_MSR);
+ } while ( pstate_msr.lo != target_pstate ) ;
+ }
+}
+
+static void set_pstate(u32 nonBoostedPState) {
+ msr_t msr;
+
+ // Transition P0 for calling core.
+ msr = rdmsr(0xC0010062);
+
+ msr.lo = nonBoostedPState;
+ wrmsr(0xC0010062, msr);
+
+ /* Wait for P0 to set. */
+ waitCurrentPstate(nonBoostedPState);
+}
+
+
+
static void UpdateSinglePlaneNbVid(void)
{
}
}
-static void fixPsNbVidBeforeWR(u32 newNbVid, u32 coreid)
-{
- msr_t msr;
- u8 startup_pstate;
-
- /* This function sets NbVid before the warm reset.
- * Get StartupPstate from MSRC001_0071.
- * Read Pstate register pionted by [StartupPstate].
- * and copy its content to P0 and P1 registers.
- * Copy newNbVid to P0[NbVid].
- * transition to P1 on all cores,
- * then transition to P0 on core 0.
- * Wait for MSRC001_0063[CurPstate] = 000b on core 0.
- */
-
- msr = rdmsr(0xc0010071);
+static void fixPsNbVidBeforeWR(u32 newNbVid, u32 coreid, u32 dev, u8 pviMode)
+ {
+ msr_t msr;
+ u8 startup_pstate;
+
+ /* This function sets NbVid before the warm reset.
+ * Get StartupPstate from MSRC001_0071.
+ * Read Pstate register pointed by [StartupPstate].
+ * and copy its content to P0 and P1 registers.
+ * Copy newNbVid to P0[NbVid].
+ * transition to P1 on all cores,
+ * then transition to P0 on core 0.
+ * Wait for MSRC001_0063[CurPstate] = 000b on core 0.
+ * see BKDG rev 3.48 2.4.2.9.1 BIOS NB COF and VID Configuration
+ * for SVI and Single-Plane PVI Systems
+ */
+
+ msr = rdmsr(0xc0010071);
startup_pstate = (msr.hi >> (32 - 32)) & 0x07;
- /* Copy startup pstate to P1 and P0 MSRs. Set the maxvid for this node in P0.
- * Then transition to P1 for corex and P0 for core0.
- * These setting will be cleared by the warm reset
+ /* Copy startup pstate to P1 and P0 MSRs. Set the maxvid for
+ * this node in P0. Then transition to P1 for corex and P0
+ * for core0. These setting will be cleared by the warm reset
*/
msr = rdmsr(0xC0010064 + startup_pstate);
wrmsr(0xC0010065, msr);
wrmsr(0xC0010064, msr);
+ /* missing step 2 from BDKG , F3xDC[PstateMaxVal] =
+ * max(1,F3xDC[PstateMaxVal] ) because it would take
+ * synchronization between cores and we don't think
+ * PstatMaxVal is going to be 0 on cold reset anyway ?
+ */
+ if ( ! (pci_read_config32(dev, 0xDC) & (~ PS_MAX_VAL_MASK)) ) {
+ printk(BIOS_ERR,"F3xDC[PstateMaxVal] is zero. Northbridge voltage setting will fail. fixPsNbVidBeforeWR in fidvid.c needs fixing. See AMD # 31116 rev 3.48 BKDG 2.4.2.9.1 \n");
+ };
+
msr.lo &= ~0xFE000000; // clear nbvid
- msr.lo |= newNbVid << 25;
+ msr.lo |= (newNbVid << 25);
wrmsr(0xC0010064, msr);
- UpdateSinglePlaneNbVid();
+ if (pviMode) { /* single plane*/
+ UpdateSinglePlaneNbVid();
+ }
// Transition to P1 for all APs and P0 for core0.
- msr = rdmsr(0xC0010062);
- msr.lo = (msr.lo & ~0x07) | 1;
- wrmsr(0xC0010062, msr);
-
- // Wait for P1 to set.
- do {
- msr = rdmsr(0xC0010063);
- } while (msr.lo != 1);
+ set_pstate(1);
if (coreid == 0) {
- msr.lo = msr.lo & ~0x07;
- wrmsr(0xC0010062, msr);
- // Wait for P0 to set.
- do {
- msr = rdmsr(0xC0010063);
- } while (msr.lo != 0);
- }
-}
-
-static void coreDelay(void)
-{
- u32 saved;
- u32 hi, lo, msr;
- u32 cycles;
-
- /* delay ~40us
- This seems like a hack to me...
- It would be nice to have a central delay function. */
-
- cycles = 8000 << 3; /* x8 (number of 1.25ns ticks) */
-
- msr = 0x10; /* TSC */
- _RDMSR(msr, &lo, &hi);
- saved = lo;
- do {
- _RDMSR(msr, &lo, &hi);
- } while (lo - saved < cycles);
-}
+ set_pstate(0);
+ }
-static void transitionVid(u32 targetVid, u8 dev, u8 isNb)
-{
- u32 currentVid, dtemp;
- msr_t msr;
- u8 vsTimecode;
- u16 timeTable[8] = { 10, 20, 30, 40, 60, 100, 200, 500 };
- int vsTime;
-
- /* This function steps or slam the Nb VID to the target VID.
- * It uses VSRampTime for [SlamVidMode]=0 ([PviMode]=1)
- * or VSSlamTime for [SlamVidMode]=1 ([PviMode]=0)to time period.
+ /* missing step 7 (restore PstateMax to 0 if needed) because
+ * we skipped step 2
*/
- /* get the current VID */
- msr = rdmsr(0xC0010071);
- if (isNb)
- currentVid = (msr.lo >> NB_VID_POS) & BIT_MASK_7;
- else
- currentVid = (msr.lo >> CPU_VID_POS) & BIT_MASK_7;
-
- /* Read MSRC001_0070 COFVID Control Register */
- msr = rdmsr(0xC0010070);
-
- /* check PVI/SPI */
- dtemp = pci_read_config32(dev, 0xA0);
- if (dtemp & PVI_MODE) { /* PVI, step VID */
- if (currentVid < targetVid) {
- while (currentVid < targetVid) {
- currentVid++;
- if (isNb)
- msr.lo = (msr.lo & NB_VID_MASK_OFF) | (currentVid << NB_VID_POS);
- else
- msr.lo = (msr.lo & CPU_VID_MASK_OFF) | (currentVid << CPU_VID_POS);
- wrmsr(0xC0010070, msr);
-
- /* read F3xD8[VSRampTime] */
- dtemp = pci_read_config32(dev, 0xD8);
- vsTimecode = (u8) ((dtemp >> VS_RAMP_T) & 0x7);
- vsTime = (int)timeTable[vsTimecode];
- do {
- coreDelay();
- vsTime -= 40;
- } while (vsTime > 0);
- }
- } else if (currentVid > targetVid) {
- while (currentVid > targetVid) {
- currentVid--;
- if (isNb)
- msr.lo = (msr.lo & NB_VID_MASK_OFF) | (currentVid << NB_VID_POS);
- else
- msr.lo = (msr.lo & CPU_VID_MASK_OFF) | (currentVid << CPU_VID_POS);
- wrmsr(0xC0010070, msr);
-
- /* read F3xD8[VSRampTime] */
- dtemp = pci_read_config32(dev, 0xD8);
- vsTimecode = (u8) ((dtemp >> VS_RAMP_T) & 0x7);
- vsTime = (int)timeTable[vsTimecode];
- do {
- coreDelay();
- vsTime -= 40;
- } while (vsTime > 0);
- }
- }
- } else { /* SVI, slam VID */
- if (isNb)
- msr.lo = (msr.lo & NB_VID_MASK_OFF) | (targetVid << NB_VID_POS);
- else
- msr.lo = (msr.lo & CPU_VID_MASK_OFF) | (targetVid << CPU_VID_POS);
- wrmsr(0xC0010070, msr);
-
- /* read F3xD8[VSRampTime] */
- dtemp = pci_read_config32(dev, 0xD8);
- vsTimecode = (u8) ((dtemp >> VS_RAMP_T) & 0x7);
- vsTime = (int)timeTable[vsTimecode];
- do {
- coreDelay();
- vsTime -= 40;
- } while (vsTime > 0);
- }
}
static u32 needs_NB_COF_VID_update(void)
nodes = get_nodes();
nb_cof_vid_update = 0;
for (i = 0; i < nodes; i++) {
- if (pci_read_config32(NODE_PCI(i, 3), 0x1FC) & 1) {
+ u32 cpuRev = mctGetLogicalCPUID(i) ;
+ u32 nbCofVidUpdateDefined = (cpuRev & (AMD_FAM10_LT_D));
+ if (nbCofVidUpdateDefined
+ && (pci_read_config32(NODE_PCI(i, 3), 0x1FC)
+ & NB_COF_VID_UPDATE_MASK)) {
nb_cof_vid_update = 1;
break;
}
{
device_t dev;
u32 vid_max;
- u32 fid_max=0;
+ u32 fid_max = 0;
u8 nb_cof_vid_update = needs_NB_COF_VID_update();
u8 pvimode;
u32 reg1fc;
/* Steps 1-6 of BIOS NB COF and VID Configuration
- * for SVI and Single-Plane PVI Systems.
+ * for SVI and Single-Plane PVI Systems. BKDG 2.4.2.9 #31116 rev 3.48
*/
dev = NODE_PCI(nodeid, 3);
- pvimode = (pci_read_config32(dev, 0xA0) >> 8) & 1;
+ pvimode = pci_read_config32(dev, PW_CTL_MISC) & PVI_MODE;
reg1fc = pci_read_config32(dev, 0x1FC);
if (nb_cof_vid_update) {
- if (pvimode) {
- vid_max = (reg1fc >> 7) & 0x7F;
- fid_max = (reg1fc >> 2) & 0x1F;
-
- /* write newNbVid to P-state Reg's NbVid always if NbVidUpdatedAll=1 */
- fixPsNbVidBeforeWR(vid_max, coreid);
- } else { /* SVI */
- vid_max = ((reg1fc >> 7) & 0x7F) - ((reg1fc >> 17) & 0x1F);
- fid_max = ((reg1fc >> 2) & 0x1F) + ((reg1fc >> 14) & 0x7);
- transitionVid(vid_max, dev, IS_NB);
+ vid_max = (reg1fc & SINGLE_PLANE_NB_VID_MASK ) >> SINGLE_PLANE_NB_VID_SHIFT ;
+ fid_max = (reg1fc & SINGLE_PLANE_NB_FID_MASK ) >> SINGLE_PLANE_NB_FID_SHIFT ;
+
+ if (!pvimode) { /* SVI, dual power plane */
+ vid_max = vid_max - ((reg1fc & DUAL_PLANE_NB_VID_OFF_MASK ) >> DUAL_PLANE_NB_VID_SHIFT );
+ fid_max = fid_max + ((reg1fc & DUAL_PLANE_NB_FID_OFF_MASK ) >> DUAL_PLANE_NB_FID_SHIFT );
}
+ /* write newNbVid to P-state Reg's NbVid always if NbVidUpdatedAll=1 */
+ fixPsNbVidBeforeWR(vid_max, coreid,dev,pvimode);
/* fid setup is handled by the BSP at the end. */
}
-static void init_fidvid_ap(u32 bsp_apicid, u32 apicid, u32 nodeid, u32 coreid)
+static void init_fidvid_ap(u32 apicid, u32 nodeid, u32 coreid)
{
u32 send;
printk(BIOS_DEBUG, "FIDVID on AP: %02x\n", apicid);
- send = init_fidvid_core(nodeid,coreid);
+ send = init_fidvid_core(nodeid,coreid);
send |= (apicid << 24); // ap apicid
// Send signal to BSP about this AP max fid
}
-static void updateSviPsNbVidAfterWR(u32 newNbVid)
-{
- msr_t msr;
- u8 i;
-
- /* This function copies newNbVid to NbVid bits in P-state Registers[4:0]
- * for SVI mode.
- */
-
- for (i = 0; i < 5; i++) {
- msr = rdmsr(0xC0010064 + i);
- if ((msr.hi >> 31) & 1) { /* PstateEn? */
- msr.lo &= ~(0x7F << 25);
- msr.lo |= (newNbVid & 0x7F) << 25;
- wrmsr(0xC0010064 + i, msr);
- }
- }
-}
-
-
-static void fixPsNbVidAfterWR(u32 newNbVid, u8 NbVidUpdatedAll)
+static void fixPsNbVidAfterWR(u32 newNbVid, u8 NbVidUpdatedAll,u8 pviMode)
{
msr_t msr;
u8 i;
u8 StartupPstate;
- /* This function copies newNbVid to NbVid bits in P-state
- * Registers[4:0] if its NbDid bit=0 and PstateEn bit =1 in case of
- * NbVidUpdatedAll =0 or copies copies newNbVid to NbVid bits in
- * P-state Registers[4:0] if its and PstateEn bit =1 in case of
+ /* BKDG 2.4.2.9.1 11-12
+ * This function copies newNbVid to NbVid bits in P-state
+ * Registers[4:0] if its NbDid bit=0, and IddValue!=0 in case of
+ * NbVidUpdatedAll =0 or copies newNbVid to NbVid bits in
+ * P-state Registers[4:0] if its IddValue!=0 in case of
* NbVidUpdatedAll=1. Then transition to StartPstate.
*/
for (i = 0; i < 5; i++) {
msr = rdmsr(0xC0010064 + i);
/* NbDid (bit 22 of P-state Reg) == 0 or NbVidUpdatedAll = 1 */
- if ((((msr.lo >> 22) & 1) == 0) || NbVidUpdatedAll) {
- msr.lo &= ~(0x7F << 25);
- msr.lo |= (newNbVid & 0x7F) << 25;
+ if ( (msr.hi & PS_IDD_VALUE_MASK)
+ && (msr.hi & PS_EN_MASK)
+ &&(((msr.lo & PS_NB_DID_MASK) == 0) || NbVidUpdatedAll)) {
+ msr.lo &= PS_NB_VID_M_OFF;
+ msr.lo |= (newNbVid & 0x7F) << PS_NB_VID_SHFT;
wrmsr(0xC0010064 + i, msr);
}
}
- UpdateSinglePlaneNbVid();
-
+ /* Not documented. Would overwrite Nb_Vids just copied
+ * should we just update cpu_vid or nothing at all ?
+ */
+ if (pviMode) { //single plane
+ UpdateSinglePlaneNbVid();
+ }
/* For each core in the system, transition all cores to StartupPstate */
msr = rdmsr(0xC0010071);
StartupPstate = msr.hi & 0x07;
- msr = rdmsr(0xC0010062);
- msr.lo = StartupPstate;
- wrmsr(0xC0010062, msr);
-
- /* Wait for StartupPstate to set. */
- do {
- msr = rdmsr(0xC0010063);
- } while (msr.lo != StartupPstate);
-}
-
-static void set_p0(void)
-{
- msr_t msr;
- // Transition P0 for calling core.
- msr = rdmsr(0xC0010062);
- msr.lo = (msr.lo & ~0x07);
- wrmsr(0xC0010062, msr);
+ /* Set and wait for StartupPstate to set. */
+ set_pstate(StartupPstate);
- /* Wait for P0 to set. */
- do {
- msr = rdmsr(0xC0010063);
- } while (msr.lo != 0);
}
static void finalPstateChange(void)
* It is safe since they will be in C1 halt
* most of the time anyway.
*/
- set_p0();
+ set_pstate(0);
}
static void init_fidvid_stage2(u32 apicid, u32 nodeid)
NbVidUpdateAll = (reg1fc >> 1) & 1;
if (nb_cof_vid_update) {
- if (pvimode) {
- nbvid = (reg1fc >> 7) & 0x7F;
- /* write newNbVid to P-state Reg's NbVid if its NbDid=0 */
- fixPsNbVidAfterWR(nbvid, NbVidUpdateAll);
- } else { /* SVI */
- nbvid = ((reg1fc >> 7) & 0x7F) - ((reg1fc >> 17) & 0x1F);
- updateSviPsNbVidAfterWR(nbvid);
+ if (!pvimode) { /* SVI */
+ nbvid = nbvid - ((reg1fc >> 17) & 0x1F);
}
- } else { /* !nb_cof_vid_update */
+ /* write newNbVid to P-state Reg's NbVid if its NbDid=0 */
+ fixPsNbVidAfterWR(nbvid, NbVidUpdateAll,pvimode);
+ } else { /* !nb_cof_vid_update */
if (pvimode)
UpdateSinglePlaneNbVid();
}
dtemp |= PLLLOCK_DFT_L;
pci_write_config32(dev, 0xA0, dtemp);
+ dualPlaneOnly(dev);
+ applyBoostFIDOffset(dev);
+ enableNbPState1(dev);
+
finalPstateChange();
/* Set TSC to tick at the P0 ndfid rate */