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authorAlexandre Courbot <acourbot@nvidia.com>2016-06-01 10:39:27 +0200
committerBen Skeggs <bskeggs@redhat.com>2016-07-14 03:53:25 +0200
commit6ed7e74219be60c12dc803c2d6cafa0266f3cd32 (patch)
treeae245b981ba198e884ad6915ae6e79a95611c082 /drivers/gpu/drm/nouveau/nvkm/subdev/clk
parentdrm/nouveau/clk/gk20a: factorize n_lo computation code (diff)
downloadlinux-6ed7e74219be60c12dc803c2d6cafa0266f3cd32.tar.xz
linux-6ed7e74219be60c12dc803c2d6cafa0266f3cd32.zip
drm/nouveau/clk/gk20a: improve MNP programming
Split the MNP programming function into two functions for the cases where we allow sliding or not, instead of making it take a parameter for this. This results in less conditionals in the code and makes it easier to read. Also make the MNP programming functions take the PLL parameters as arguments, and move bits of code to more relevant places (previous programming tended to be just-in-time, which added more conditionnals in the code). Signed-off-by: Alexandre Courbot <acourbot@nvidia.com> Signed-off-by: Ben Skeggs <bskeggs@redhat.com>
Diffstat (limited to 'drivers/gpu/drm/nouveau/nvkm/subdev/clk')
-rw-r--r--drivers/gpu/drm/nouveau/nvkm/subdev/clk/gk20a.c185
1 files changed, 96 insertions, 89 deletions
diff --git a/drivers/gpu/drm/nouveau/nvkm/subdev/clk/gk20a.c b/drivers/gpu/drm/nouveau/nvkm/subdev/clk/gk20a.c
index cc46e3abac97..513d112e8268 100644
--- a/drivers/gpu/drm/nouveau/nvkm/subdev/clk/gk20a.c
+++ b/drivers/gpu/drm/nouveau/nvkm/subdev/clk/gk20a.c
@@ -72,6 +72,7 @@
#define GPC2CLK_OUT_VCODIV_WIDTH 6
#define GPC2CLK_OUT_VCODIV_SHIFT 8
#define GPC2CLK_OUT_VCODIV1 0
+#define GPC2CLK_OUT_VCODIV2 2
#define GPC2CLK_OUT_VCODIV_MASK (MASK(GPC2CLK_OUT_VCODIV_WIDTH) << \
GPC2CLK_OUT_VCODIV_SHIFT)
#define GPC2CLK_OUT_BYPDIV_WIDTH 6
@@ -322,13 +323,42 @@ gk20a_pllg_slide(struct gk20a_clk *clk, u32 n)
return ret;
}
-static void
+static bool
+gk20a_pllg_is_enabled(struct gk20a_clk *clk)
+{
+ struct nvkm_device *device = clk->base.subdev.device;
+ u32 val;
+
+ val = nvkm_rd32(device, GPCPLL_CFG);
+ return val & GPCPLL_CFG_ENABLE;
+}
+
+static int
gk20a_pllg_enable(struct gk20a_clk *clk)
{
struct nvkm_device *device = clk->base.subdev.device;
+ u32 val;
nvkm_mask(device, GPCPLL_CFG, GPCPLL_CFG_ENABLE, GPCPLL_CFG_ENABLE);
nvkm_rd32(device, GPCPLL_CFG);
+
+ /* enable lock detection */
+ val = nvkm_rd32(device, GPCPLL_CFG);
+ if (val & GPCPLL_CFG_LOCK_DET_OFF) {
+ val &= ~GPCPLL_CFG_LOCK_DET_OFF;
+ nvkm_wr32(device, GPCPLL_CFG, val);
+ }
+
+ /* wait for lock */
+ if (nvkm_wait_usec(device, 300, GPCPLL_CFG, GPCPLL_CFG_LOCK,
+ GPCPLL_CFG_LOCK) < 0)
+ return -ETIMEDOUT;
+
+ /* switch to VCO mode */
+ nvkm_mask(device, SEL_VCO, BIT(SEL_VCO_GPC2CLK_OUT_SHIFT),
+ BIT(SEL_VCO_GPC2CLK_OUT_SHIFT));
+
+ return 0;
}
static void
@@ -336,112 +366,81 @@ gk20a_pllg_disable(struct gk20a_clk *clk)
{
struct nvkm_device *device = clk->base.subdev.device;
+ /* put PLL in bypass before disabling it */
+ nvkm_mask(device, SEL_VCO, BIT(SEL_VCO_GPC2CLK_OUT_SHIFT), 0);
+
nvkm_mask(device, GPCPLL_CFG, GPCPLL_CFG_ENABLE, 0);
nvkm_rd32(device, GPCPLL_CFG);
}
static int
-_gk20a_pllg_program_mnp(struct gk20a_clk *clk, struct gk20a_pll *pll,
- bool allow_slide)
+gk20a_pllg_program_mnp(struct gk20a_clk *clk, const struct gk20a_pll *pll)
{
struct nvkm_subdev *subdev = &clk->base.subdev;
struct nvkm_device *device = subdev->device;
- u32 val, cfg;
- struct gk20a_pll old_pll;
-
- /* get old coefficients */
- gk20a_pllg_read_mnp(clk, &old_pll);
-
- /* do NDIV slide if there is no change in M and PL */
- cfg = nvkm_rd32(device, GPCPLL_CFG);
- if (allow_slide && pll->m == old_pll.m &&
- pll->pl == old_pll.pl && (cfg & GPCPLL_CFG_ENABLE)) {
- return gk20a_pllg_slide(clk, pll->n);
- }
+ struct gk20a_pll cur_pll;
+ int ret;
- /* slide down to NDIV_LO */
- if (allow_slide && (cfg & GPCPLL_CFG_ENABLE)) {
- int ret;
+ gk20a_pllg_read_mnp(clk, &cur_pll);
- ret = gk20a_pllg_slide(clk, gk20a_pllg_n_lo(clk, &old_pll));
- if (ret)
- return ret;
- }
-
- /* split FO-to-bypass jump in halfs by setting out divider 1:2 */
+ /* split VCO-to-bypass jump in half by setting out divider 1:2 */
nvkm_mask(device, GPC2CLK_OUT, GPC2CLK_OUT_VCODIV_MASK,
- 0x2 << GPC2CLK_OUT_VCODIV_SHIFT);
-
- /* put PLL in bypass before programming it */
- val = nvkm_rd32(device, SEL_VCO);
- val &= ~(BIT(SEL_VCO_GPC2CLK_OUT_SHIFT));
+ GPC2CLK_OUT_VCODIV2 << GPC2CLK_OUT_VCODIV_SHIFT);
+ /* Intentional 2nd write to assure linear divider operation */
+ nvkm_mask(device, GPC2CLK_OUT, GPC2CLK_OUT_VCODIV_MASK,
+ GPC2CLK_OUT_VCODIV2 << GPC2CLK_OUT_VCODIV_SHIFT);
+ nvkm_rd32(device, GPC2CLK_OUT);
udelay(2);
- nvkm_wr32(device, SEL_VCO, val);
-
- /* get out from IDDQ */
- val = nvkm_rd32(device, GPCPLL_CFG);
- if (val & GPCPLL_CFG_IDDQ) {
- val &= ~GPCPLL_CFG_IDDQ;
- nvkm_wr32(device, GPCPLL_CFG, val);
- nvkm_rd32(device, GPCPLL_CFG);
- udelay(2);
- }
gk20a_pllg_disable(clk);
- nvkm_debug(subdev, "%s: m=%d n=%d pl=%d\n", __func__,
- pll->m, pll->n, pll->pl);
-
- old_pll = *pll;
- if (allow_slide)
- old_pll.n = gk20a_pllg_n_lo(clk, pll);
- gk20a_pllg_write_mnp(clk, &old_pll);
+ gk20a_pllg_write_mnp(clk, pll);
- gk20a_pllg_enable(clk);
-
- val = nvkm_rd32(device, GPCPLL_CFG);
- if (val & GPCPLL_CFG_LOCK_DET_OFF) {
- val &= ~GPCPLL_CFG_LOCK_DET_OFF;
- nvkm_wr32(device, GPCPLL_CFG, val);
- }
-
- if (nvkm_usec(device, 300,
- if (nvkm_rd32(device, GPCPLL_CFG) & GPCPLL_CFG_LOCK)
- break;
- ) < 0)
- return -ETIMEDOUT;
-
- /* switch to VCO mode */
- nvkm_mask(device, SEL_VCO, BIT(SEL_VCO_GPC2CLK_OUT_SHIFT),
- BIT(SEL_VCO_GPC2CLK_OUT_SHIFT));
+ ret = gk20a_pllg_enable(clk);
+ if (ret)
+ return ret;
/* restore out divider 1:1 */
- val = nvkm_rd32(device, GPC2CLK_OUT);
- if ((val & GPC2CLK_OUT_VCODIV_MASK) !=
- (GPC2CLK_OUT_VCODIV1 << GPC2CLK_OUT_VCODIV_SHIFT)) {
- val &= ~GPC2CLK_OUT_VCODIV_MASK;
- val |= GPC2CLK_OUT_VCODIV1 << GPC2CLK_OUT_VCODIV_SHIFT;
- udelay(2);
- nvkm_wr32(device, GPC2CLK_OUT, val);
- /* Intentional 2nd write to assure linear divider operation */
- nvkm_wr32(device, GPC2CLK_OUT, val);
- nvkm_rd32(device, GPC2CLK_OUT);
- }
+ udelay(2);
+ nvkm_mask(device, GPC2CLK_OUT, GPC2CLK_OUT_VCODIV_MASK,
+ GPC2CLK_OUT_VCODIV1 << GPC2CLK_OUT_VCODIV_SHIFT);
+ /* Intentional 2nd write to assure linear divider operation */
+ nvkm_mask(device, GPC2CLK_OUT, GPC2CLK_OUT_VCODIV_MASK,
+ GPC2CLK_OUT_VCODIV1 << GPC2CLK_OUT_VCODIV_SHIFT);
+ nvkm_rd32(device, GPC2CLK_OUT);
- /* slide up to new NDIV */
- return allow_slide ? gk20a_pllg_slide(clk, pll->n) : 0;
+ return 0;
}
static int
-gk20a_pllg_program_mnp(struct gk20a_clk *clk)
+gk20a_pllg_program_mnp_slide(struct gk20a_clk *clk, const struct gk20a_pll *pll)
{
- int err;
+ struct gk20a_pll cur_pll;
+ int ret;
+
+ if (gk20a_pllg_is_enabled(clk)) {
+ gk20a_pllg_read_mnp(clk, &cur_pll);
- err = _gk20a_pllg_program_mnp(clk, &clk->pll, true);
- if (err)
- err = _gk20a_pllg_program_mnp(clk, &clk->pll, false);
+ /* just do NDIV slide if there is no change to M and PL */
+ if (pll->m == cur_pll.m && pll->pl == cur_pll.pl)
+ return gk20a_pllg_slide(clk, pll->n);
- return err;
+ /* slide down to current NDIV_LO */
+ cur_pll.n = gk20a_pllg_n_lo(clk, &cur_pll);
+ ret = gk20a_pllg_slide(clk, cur_pll.n);
+ if (ret)
+ return ret;
+ }
+
+ /* program MNP with the new clock parameters and new NDIV_LO */
+ cur_pll = *pll;
+ cur_pll.n = gk20a_pllg_n_lo(clk, &cur_pll);
+ ret = gk20a_pllg_program_mnp(clk, &cur_pll);
+ if (ret)
+ return ret;
+
+ /* slide up to new NDIV */
+ return gk20a_pllg_slide(clk, pll->n);
}
static struct nvkm_pstate
@@ -571,8 +570,13 @@ int
gk20a_clk_prog(struct nvkm_clk *base)
{
struct gk20a_clk *clk = gk20a_clk(base);
+ int ret;
+
+ ret = gk20a_pllg_program_mnp_slide(clk, &clk->pll);
+ if (ret)
+ ret = gk20a_pllg_program_mnp(clk, &clk->pll);
- return gk20a_pllg_program_mnp(clk);
+ return ret;
}
void
@@ -621,11 +625,9 @@ gk20a_clk_fini(struct nvkm_clk *base)
{
struct nvkm_device *device = base->subdev.device;
struct gk20a_clk *clk = gk20a_clk(base);
- u32 val;
/* slide to VCO min */
- val = nvkm_rd32(device, GPCPLL_CFG);
- if (val & GPCPLL_CFG_ENABLE) {
+ if (gk20a_pllg_is_enabled(clk)) {
struct gk20a_pll pll;
u32 n_lo;
@@ -634,10 +636,10 @@ gk20a_clk_fini(struct nvkm_clk *base)
gk20a_pllg_slide(clk, n_lo);
}
- /* put PLL in bypass before disabling it */
- nvkm_mask(device, SEL_VCO, BIT(SEL_VCO_GPC2CLK_OUT_SHIFT), 0);
-
gk20a_pllg_disable(clk);
+
+ /* set IDDQ */
+ nvkm_mask(device, GPCPLL_CFG, GPCPLL_CFG_IDDQ, 1);
}
static int
@@ -648,6 +650,11 @@ gk20a_clk_init(struct nvkm_clk *base)
struct nvkm_device *device = subdev->device;
int ret;
+ /* get out from IDDQ */
+ nvkm_mask(device, GPCPLL_CFG, GPCPLL_CFG_IDDQ, 0);
+ nvkm_rd32(device, GPCPLL_CFG);
+ udelay(5);
+
nvkm_mask(device, GPC2CLK_OUT, GPC2CLK_OUT_INIT_MASK,
GPC2CLK_OUT_INIT_VAL);