GNUBoot
/
coreboot-kgpe-d16
2
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity

x4x/raminit_ddr23: use MCHBAR AND/OR/AND_OR macros [2/2] 

This patch contains the parts that changed the hash of the generated binary;
probably due to the compiler optimizing things slightly different.

Change-Id: I3233ba1747dcf5ad05b2ad771a86e3936f655d1c
Signed-off-by: Felix Held <felix-coreboot@felixheld.de>
Reviewed-on: https://review.coreboot.org/27718
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
Reviewed-by: Paul Menzel <paulepanter@users.sourceforge.net>
Reviewed-by: Arthur Heymans <arthur@aheymans.xyz>
This commit is contained in:
Felix Held 2018-07-29 18:51:22 +02:00
parent f83d80bfe8
commit 3a2f900cfe
1 changed files with 97 additions and 142 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

239
src/northbridge/intel/x4x/raminit_ddr23.c
View File

@ -265,87 +265,72 @@ static void launch_dram(struct sysinfo *s)
static void clkset0(u8 ch, const struct dll_setting *setting)
{
MCHBAR16(0x400*ch + 0x5a0) = (MCHBAR16(0x400*ch + 0x5a0) & ~0xc440) |
MCHBAR16_AND_OR(0x400*ch + 0x5a0, ~0xc440,
(setting->clk_delay << 14) |
(setting->db_sel << 6) |
(setting->db_en << 10);
MCHBAR8(0x400*ch + 0x581) = (MCHBAR8(0x400*ch + 0x581) & ~0x70) |
(setting->pi << 4);
MCHBAR8(0x400*ch + 0x581) = (MCHBAR8(0x400*ch + 0x581) & ~0xf) |
setting->tap;
(setting->db_en << 10));
MCHBAR8_AND_OR(0x400*ch + 0x581, ~0x70, setting->pi << 4);
MCHBAR8_AND_OR(0x400*ch + 0x581, ~0xf, setting->tap);
}
static void clkset1(u8 ch, const struct dll_setting *setting)
{
MCHBAR32(0x400*ch + 0x5a0) = (MCHBAR32(0x400*ch + 0x5a0) & ~0x30880) |
MCHBAR32_AND_OR(0x400*ch + 0x5a0, ~0x30880,
(setting->clk_delay << 16) |
(setting->db_sel << 7) |
(setting->db_en << 11);
MCHBAR8(0x400*ch + 0x582) = (MCHBAR8(0x400*ch + 0x582) & ~0x70) |
(setting->pi << 4);
MCHBAR8(0x400*ch + 0x582) = (MCHBAR8(0x400*ch + 0x582) & ~0xf) |
setting->tap;
(setting->db_en << 11));
MCHBAR8_AND_OR(0x400*ch + 0x582, ~0x70, setting->pi << 4);
MCHBAR8_AND_OR(0x400*ch + 0x582, ~0xf, setting->tap);
}
static void ctrlset0(u8 ch, const struct dll_setting *setting)
{
MCHBAR32(0x400*ch + 0x59c) = (MCHBAR32(0x400*ch + 0x59c) & ~0x3300000) |
MCHBAR32_AND_OR(0x400*ch + 0x59c, ~0x3300000,
(setting->clk_delay << 24) |
(setting->db_sel << 20) |
(setting->db_en << 21);
MCHBAR8(0x400*ch + 0x584) = (MCHBAR8(0x400*ch + 0x584) & ~0x70) |
(setting->pi << 4);
MCHBAR8(0x400*ch + 0x584) = (MCHBAR8(0x400*ch + 0x584) & ~0xf) |
setting->tap;
(setting->db_en << 21));
MCHBAR8_AND_OR(0x400*ch + 0x584, ~0x70, setting->pi << 4);
MCHBAR8_AND_OR(0x400*ch + 0x584, ~0xf, setting->tap);
}
static void ctrlset1(u8 ch, const struct dll_setting *setting)
{
MCHBAR32(0x400*ch + 0x59c) = (MCHBAR32(0x400*ch + 0x59c) & ~0x18c00000) |
MCHBAR32_AND_OR(0x400*ch + 0x59c, ~0x18c00000,
(setting->clk_delay << 27) |
(setting->db_sel << 22) |
(setting->db_en << 23);
MCHBAR8(0x400*ch + 0x585) = (MCHBAR8(0x400*ch + 0x585) & ~0x70) |
(setting->pi << 4);
MCHBAR8(0x400*ch + 0x585) = (MCHBAR8(0x400*ch + 0x585) & ~0xf) |
setting->tap;
(setting->db_en << 23));
MCHBAR8_AND_OR(0x400*ch + 0x585, ~0x70, setting->pi << 4);
MCHBAR8_AND_OR(0x400*ch + 0x585, ~0xf, setting->tap);
}
static void ctrlset2(u8 ch, const struct dll_setting *setting)
{
MCHBAR32(0x400*ch + 0x598) = (MCHBAR32(0x400*ch + 0x598) & ~0x18c00000) |
MCHBAR32_AND_OR(0x400*ch + 0x598, ~0x18c00000,
(setting->clk_delay << 14) |
(setting->db_sel << 12) |
(setting->db_en << 13);
MCHBAR8(0x400*ch + 0x586) = (MCHBAR8(0x400*ch + 0x586) & ~0x70) |
(setting->pi << 4);
MCHBAR8(0x400*ch + 0x586) = (MCHBAR8(0x400*ch + 0x586) & ~0xf) |
setting->tap;
(setting->db_en << 13));
MCHBAR8_AND_OR(0x400*ch + 0x586, ~0x70, setting->pi << 4);
MCHBAR8_AND_OR(0x400*ch + 0x586, ~0xf, setting->tap);
}
static void ctrlset3(u8 ch, const struct dll_setting *setting)
{
MCHBAR32(0x400*ch + 0x598) = (MCHBAR32(0x400*ch + 0x598) & ~0x18c00000) |
MCHBAR32_AND_OR(0x400*ch + 0x598, ~0x18c00000,
(setting->clk_delay << 10) |
(setting->db_sel << 8) |
(setting->db_en << 9);
MCHBAR8(0x400*ch + 0x587) = (MCHBAR8(0x400*ch + 0x587) & ~0x70) |
(setting->pi << 4);
MCHBAR8(0x400*ch + 0x587) = (MCHBAR8(0x400*ch + 0x587) & ~0xf) |
setting->tap;
(setting->db_en << 9));
MCHBAR8_AND_OR(0x400*ch + 0x587, ~0x70, setting->pi << 4);
MCHBAR8_AND_OR(0x400*ch + 0x587, ~0xf, setting->tap);
}
static void cmdset(u8 ch, const struct dll_setting *setting)
{
MCHBAR8(0x400*ch + 0x598) = (MCHBAR8(0x400*ch + 0x598) & ~0x30) |
(setting->clk_delay << 4);
MCHBAR8(0x400*ch + 0x594) = (MCHBAR8(0x400*ch + 0x594) & ~0x60) |
MCHBAR8_AND_OR(0x400*ch + 0x598, ~0x30, setting->clk_delay << 4);
MCHBAR8_AND_OR(0x400*ch + 0x594, ~0x60,
(setting->db_sel << 5) |
(setting->db_en << 6);
MCHBAR8(0x400*ch + 0x580) = (MCHBAR8(0x400*ch + 0x580) & ~0x70) |
(setting->pi << 4);
MCHBAR8(0x400*ch + 0x580) = (MCHBAR8(0x400*ch + 0x580) & ~0xf) |
setting->tap;
(setting->db_en << 6));
MCHBAR8_AND_OR(0x400*ch + 0x580, ~0x70, setting->pi << 4);
MCHBAR8_AND_OR(0x400*ch + 0x580, ~0xf, setting->tap);
}
/**
@ -356,52 +341,41 @@ void dqsset(u8 ch, u8 lane, const struct dll_setting *setting)
{
int rank;
MCHBAR32(0x400 * ch + 0x5fc) = (MCHBAR32(0x400 * ch + 0x5fc)
& ~(1 << (lane * 4 + 1)))
| (setting->coarse << (lane * 4 + 1));
MCHBAR32_AND_OR(0x400 * ch + 0x5fc, ~(1 << (lane * 4 + 1)),
setting->coarse << (lane * 4 + 1));
for (rank = 0; rank < 4; rank++) {
MCHBAR32(0x400 * ch + 0x5b4 + rank * 4) =
(MCHBAR32(0x400 * ch + 0x5b4 + rank * 4)
& ~(0x201 << lane))
| (setting->db_en << (9 + lane))
| (setting->db_sel << lane);
MCHBAR32_AND_OR(0x400 * ch + 0x5b4 + rank * 4, ~(0x201 << lane),
(setting->db_en << (9 + lane)) |
(setting->db_sel << lane));
MCHBAR32(0x400*ch + 0x5c8 + rank * 4) =
(MCHBAR32(0x400 * ch + 0x5c8 + rank * 4)
& ~(0x3 << (16 + lane * 2)))
| (setting->clk_delay << (16+lane * 2));
MCHBAR32_AND_OR(0x400*ch + 0x5c8 + rank * 4,
~(0x3 << (16 + lane * 2)),
setting->clk_delay << (16+lane * 2));
MCHBAR8(0x400*ch + 0x520 + lane * 4 + rank) =
(MCHBAR8(0x400*ch + 0x520 + lane*4) & ~0x7f)
| (setting->pi << 4)
| setting->tap;
(MCHBAR8(0x400*ch + 0x520 + lane * 4) & ~0x7f) |
(setting->pi << 4) |
setting->tap;
}
}
void dqset(u8 ch, u8 lane, const struct dll_setting *setting)
{
int rank;
MCHBAR32(0x400 * ch + 0x5fc) = (MCHBAR32(0x400 * ch + 0x5fc)
& ~(1 << (lane * 4)))
| (setting->coarse << (lane * 4));
MCHBAR32_AND_OR(0x400 * ch + 0x5fc, ~(1 << (lane * 4)),
setting->coarse << (lane * 4));
for (rank = 0; rank < 4; rank++) {
MCHBAR32(0x400 * ch + 0x5a4 + rank * 4) =
(MCHBAR32(0x400 * ch + 0x5a4 + rank * 4)
& ~(0x201 << lane))
| (setting->db_en << (9 + lane))
| (setting->db_sel << lane);
MCHBAR32_AND_OR(0x400 * ch + 0x5a4 + rank * 4, ~(0x201 << lane),
(setting->db_en << (9 + lane)) |
(setting->db_sel << lane));
MCHBAR32(0x400 * ch + 0x5c8 + rank * 4) =
(MCHBAR32(0x400 * ch + 0x5c8 + rank * 4)
& ~(0x3 << (lane * 2)))
| (setting->clk_delay << (2 * lane));
MCHBAR32_AND_OR(0x400 * ch + 0x5c8 + rank * 4,
~(0x3 << (lane * 2)), setting->clk_delay << (2 * lane));
MCHBAR8(0x400*ch + 0x500 + lane * 4 + rank) =
(MCHBAR8(0x400 * ch + 0x500 + lane * 4 + rank) & ~0x7f)
| (setting->pi << 4)
| setting->tap;
MCHBAR8_AND_OR(0x400*ch + 0x500 + lane * 4 + rank, ~0x7f,
(setting->pi << 4) | setting->tap);
}
}
@ -545,10 +519,9 @@ static void program_timings(struct sysinfo *s)
MCHBAR8_AND_OR(0x400*i + 0x228, ~0x7, 0x2);
/* tWL - x ?? */
MCHBAR8_AND_OR(0x400*i + 0x240, ~0xf0, 0 << 4);
MCHBAR8(0x400*i + 0x240) = (MCHBAR8(0x400*i + 0x240) & ~0xf) |
adjusted_cas;
MCHBAR16(0x400*i + 0x265) = (MCHBAR16(0x400*i + 0x265) & ~0x3f00) |
((adjusted_cas + 9) << 8);
MCHBAR8_AND_OR(0x400*i + 0x240, ~0xf, adjusted_cas);
MCHBAR16_AND_OR(0x400*i + 0x265, ~0x3f00,
(adjusted_cas + 9) << 8);
reg16 = (s->selected_timings.tRAS << 11) |
((twl + 4 + s->selected_timings.tWR) << 6) |
@ -583,11 +556,11 @@ static void program_timings(struct sysinfo *s)
MCHBAR16(0x400*i + 0x25b) = ((s->selected_timings.tRP + trpmod) << 9) |
s->selected_timings.tRFC;
MCHBAR16(0x400*i + 0x260) = (MCHBAR16(0x400*i + 0x260) & ~0x3fe)
| ((s->spd_type == DDR2 ? 100 : 256) << 1);
MCHBAR16_AND_OR(0x400*i + 0x260, ~0x3fe,
(s->spd_type == DDR2 ? 100 : 256) << 1);
MCHBAR8(0x400*i + 0x264) = 0xff;
MCHBAR8(0x400*i + 0x25d) = (MCHBAR8(0x400*i + 0x25d) & ~0x3f) |
s->selected_timings.tRAS;
MCHBAR8_AND_OR(0x400*i + 0x25d, ~0x3f,
s->selected_timings.tRAS);
MCHBAR16(0x400*i + 0x244) = 0x2310;
switch (s->selected_timings.mem_clk) {
@ -599,8 +572,7 @@ static void program_timings(struct sysinfo *s)
break;
}
MCHBAR8(0x400*i + 0x246) = (MCHBAR8(0x400*i + 0x246) & ~0x1f) |
(reg8 << 2) | 1;
MCHBAR8_AND_OR(0x400*i + 0x246, ~0x1f, (reg8 << 2) | 1);
fsb = fsb2ps[s->selected_timings.fsb_clk];
ddr = ddr2ps[s->selected_timings.mem_clk];
@ -611,8 +583,7 @@ static void program_timings(struct sysinfo *s)
ddr2mhz(s->selected_timings.mem_clk)) > 2) {
reg32 |= 1 << 24;
}
MCHBAR32(0x400*i + 0x248) = (MCHBAR32(0x400*i + 0x248) & ~0x0f001f00) |
reg32;
MCHBAR32_AND_OR(0x400*i + 0x248, ~0x0f001f00, reg32);
if (twl > 2)
flag1 = 1;
@ -778,8 +749,7 @@ static void program_dll(struct sysinfo *s)
reg16 = 0;
if ((s->spd_type == DDR3) && (i == 0))
reg16 = (0x3 << 12);
MCHBAR16(0x400*i + 0x59c) = (MCHBAR16(0x400*i + 0x59c)
& ~0x3000) | reg16;
MCHBAR16_AND_OR(0x400*i + 0x59c, ~0x3000, reg16);
reg32 = 0;
FOR_EACH_RANK_IN_CHANNEL(r) {
@ -818,9 +788,8 @@ static void program_dll(struct sysinfo *s)
} else { /* DDR3 */
FOR_EACH_POPULATED_RANK_IN_CHANNEL(s->dimms, i, r) {
MCHBAR8(0x400 * i + 0x5a0 + 3) =
MCHBAR8(0x400 * i + 0x5a0 + 3)
& ~rank2clken[r + i * 4];
MCHBAR8_AND(0x400 * i + 0x5a0 + 3,
~rank2clken[r + i * 4]);
}
}
@ -1142,58 +1111,46 @@ static void prog_rcomp(struct sysinfo *s)
FOR_EACH_POPULATED_CHANNEL(s->dimms, i) {
for (j = 0; j < 6; j++) {
if (j == 0) {
MCHBAR32(0x400*i + addr[j]) =
(MCHBAR32(0x400*i + addr[j]) & ~0xff000)
| 0xaa000;
MCHBAR32_AND_OR(0x400*i + addr[j], ~0xff000,
0xaa000);
MCHBAR16_AND_OR(0x400*i + 0x320, ~0xffff,
0x6666);
for (k = 0; k < 8; k++) {
MCHBAR32(0x400*i + addr[j] + 0xe + (k << 2)) =
(MCHBAR32(0x400*i + addr[j] + 0xe + (k << 2))
& ~0x3f3f3f3f) | x32a[k];
MCHBAR32(0x400*i + addr[j] + 0x2e + (k << 2)) =
(MCHBAR32(0x400*i + addr[j] + 0x2e + (k << 2))
& ~0x3f3f3f3f) | x32a[k];
MCHBAR32_AND_OR(0x400*i + addr[j] +
0xe + (k << 2),
~0x3f3f3f3f, x32a[k]);
MCHBAR32_AND_OR(0x400*i + addr[j] +
0x2e + (k << 2),
~0x3f3f3f3f, x32a[k]);
}
} else {
MCHBAR16(0x400*i + addr[j]) =
(MCHBAR16(0x400*i + addr[j])
& ~0xf000) | 0xa000;
MCHBAR16(0x400*i + addr[j] + 4) =
(MCHBAR16(0x400*i + addr[j] + 4)
& ~0xffff) | x378[j];
MCHBAR32(0x400*i + addr[j] + 0xe) =
(MCHBAR32(0x400*i + addr[j] + 0xe)
& ~0x3f3f3f3f) | x382[j];
MCHBAR32(0x400*i + addr[j] + 0x12) =
(MCHBAR32(0x400*i + addr[j] + 0x12)
& ~0x3f3f3f3f) | x386[j];
MCHBAR32(0x400*i + addr[j] + 0x16) =
(MCHBAR32(0x400*i + addr[j] + 0x16)
& ~0x3f3f3f3f) | x38a[j];
MCHBAR32(0x400*i + addr[j] + 0x1a) =
(MCHBAR32(0x400*i + addr[j] + 0x1a)
& ~0x3f3f3f3f) | x38e[j];
MCHBAR32(0x400*i + addr[j] + 0x1e) =
(MCHBAR32(0x400*i + addr[j] + 0x1e)
& ~0x3f3f3f3f) | x392[j];
MCHBAR32(0x400*i + addr[j] + 0x22) =
(MCHBAR32(0x400*i + addr[j] + 0x22)
& ~0x3f3f3f3f) | x396[j];
MCHBAR32(0x400*i + addr[j] + 0x26) =
(MCHBAR32(0x400*i + addr[j] + 0x26)
& ~0x3f3f3f3f) | x39a[j];
MCHBAR32(0x400*i + addr[j] + 0x2a) =
(MCHBAR32(0x400*i + addr[j] + 0x2a)
& ~0x3f3f3f3f) | x39e[j];
MCHBAR16_AND_OR(0x400*i + addr[j],
~0xf000, 0xa000);
MCHBAR16_AND_OR(0x400*i + addr[j] + 4,
~0xffff, x378[j]);
MCHBAR32_AND_OR(0x400*i + addr[j] + 0xe,
~0x3f3f3f3f, x382[j]);
MCHBAR32_AND_OR(0x400*i + addr[j] + 0x12,
~0x3f3f3f3f, x386[j]);
MCHBAR32_AND_OR(0x400*i + addr[j] + 0x16,
~0x3f3f3f3f, x38a[j]);
MCHBAR32_AND_OR(0x400*i + addr[j] + 0x1a,
~0x3f3f3f3f, x38e[j]);
MCHBAR32_AND_OR(0x400*i + addr[j] + 0x1e,
~0x3f3f3f3f, x392[j]);
MCHBAR32_AND_OR(0x400*i + addr[j] + 0x22,
~0x3f3f3f3f, x396[j]);
MCHBAR32_AND_OR(0x400*i + addr[j] + 0x26,
~0x3f3f3f3f, x39a[j]);
MCHBAR32_AND_OR(0x400*i + addr[j] + 0x2a,
~0x3f3f3f3f, x39e[j]);
}
if (s->spd_type == DDR3
&& BOTH_DIMMS_ARE_POPULATED(s->dimms, i)) {
MCHBAR16(0x378 + 0x400 * i) =
(MCHBAR16(0x378 + 0x400 * i)
& ~0xffff) | 0xcccc;
if (s->spd_type == DDR3 &&
BOTH_DIMMS_ARE_POPULATED(s->dimms, i)) {
MCHBAR16_AND_OR(0x378 + 0x400 * i,
~0xffff, 0xcccc);
}
MCHBAR8(0x400*i + addr[j]) = (MCHBAR8(0x400*i + addr[j]) & ~1) | bit[j];
MCHBAR8_AND_OR(0x400*i + addr[j], ~1, bit[j]);
}
reg8 = (s->spd_type == DDR2) ? 0x12 : 0x36;
MCHBAR8_AND_OR(0x400*i + 0x45a, ~0x3f, reg8);
@ -1272,8 +1229,7 @@ static void program_odt(struct sysinfo *s)
reg16 &= ~0xfff;
reg16 |= (s->spd_type == DDR2 ? 0x66b : 0x778);
MCHBAR16(0x400*i + 0x29c) = reg16;
MCHBAR32(0x400*i + 0x260) = (MCHBAR32(0x400*i + 0x260)
& ~0x70e3c00) | 0x3063c00;
MCHBAR32_AND_OR(0x400*i + 0x260, ~0x70e3c00, 0x3063c00);
}
}
@ -1843,9 +1799,8 @@ static void set_enhanced_mode(struct sysinfo *s)
reg8 = pci_read_config8(PCI_DEV(0, 0, 0), 0xf0);
pci_write_config8(PCI_DEV(0, 0, 0), 0xf0, reg8 | 1);
MCHBAR32(0xfa0) = (MCHBAR32(0xfa0) & ~0x20002) | 0x2
| (s->selected_timings.fsb_clk == FSB_CLOCK_1333MHz
? 0x20000 : 0);
MCHBAR32_AND_OR(0xfa0, ~0x20002, 0x2 | (s->selected_timings.fsb_clk ==
FSB_CLOCK_1333MHz ? 0x20000 : 0));
reg32 = 0x219100c2;
if (s->selected_timings.fsb_clk == FSB_CLOCK_1333MHz) {
reg32 |= 1;