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clk: bcm281xx: add clock policy support

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Add support for CCU policy engine control, and also for setting the
mask bits for bus clocks that require a policy change to get
activated.  This includes adding validity checking framework for
CCUs, to validate the policy fields if defined.

Signed-off-by: Alex Elder <elder@linaro.org>
Signed-off-by: Mike Turquette <mturquette@linaro.org>
This commit is contained in:
Alex Elder 2014-04-21 16:11:42 -05:00 committed by Mike Turquette
parent 03548ec06a
commit a597faccc7
3 changed files with 318 additions and 0 deletions
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92
drivers/clk/bcm/clk-kona-setup.c
View File

@ -25,6 +25,31 @@ LIST_HEAD(ccu_list); /* The list of set up CCUs */
/* Validity checking */
static bool ccu_data_offsets_valid(struct ccu_data *ccu)
{
struct ccu_policy *ccu_policy = &ccu->policy;
u32 limit;
limit = ccu->range - sizeof(u32);
limit = round_down(limit, sizeof(u32));
if (ccu_policy_exists(ccu_policy)) {
if (ccu_policy->enable.offset > limit) {
pr_err("%s: bad policy enable offset for %s "
"(%u > %u)\n", __func__,
ccu->name, ccu_policy->enable.offset, limit);
return false;
}
if (ccu_policy->control.offset > limit) {
pr_err("%s: bad policy control offset for %s "
"(%u > %u)\n", __func__,
ccu->name, ccu_policy->control.offset, limit);
return false;
}
}
return true;
}
static bool clk_requires_trigger(struct kona_clk *bcm_clk)
{
struct peri_clk_data *peri = bcm_clk->u.peri;
@ -54,6 +79,7 @@ static bool clk_requires_trigger(struct kona_clk *bcm_clk)
static bool peri_clk_data_offsets_valid(struct kona_clk *bcm_clk)
{
struct peri_clk_data *peri;
struct bcm_clk_policy *policy;
struct bcm_clk_gate *gate;
struct bcm_clk_div *div;
struct bcm_clk_sel *sel;
@ -70,6 +96,15 @@ static bool peri_clk_data_offsets_valid(struct kona_clk *bcm_clk)
limit = range - sizeof(u32);
limit = round_down(limit, sizeof(u32));
policy = &peri->policy;
if (policy_exists(policy)) {
if (policy->offset > limit) {
pr_err("%s: bad policy offset for %s (%u > %u)\n",
__func__, name, policy->offset, limit);
return false;
}
}
gate = &peri->gate;
if (gate_exists(gate)) {
if (gate->offset > limit) {
@ -167,6 +202,36 @@ static bool bitfield_valid(u32 shift, u32 width, const char *field_name,
return true;
}
static bool
ccu_policy_valid(struct ccu_policy *ccu_policy, const char *ccu_name)
{
struct bcm_lvm_en *enable = &ccu_policy->enable;
struct bcm_policy_ctl *control;
if (!bit_posn_valid(enable->bit, "policy enable", ccu_name))
return false;
control = &ccu_policy->control;
if (!bit_posn_valid(control->go_bit, "policy control GO", ccu_name))
return false;
if (!bit_posn_valid(control->atl_bit, "policy control ATL", ccu_name))
return false;
if (!bit_posn_valid(control->ac_bit, "policy control AC", ccu_name))
return false;
return true;
}
static bool policy_valid(struct bcm_clk_policy *policy, const char *clock_name)
{
if (!bit_posn_valid(policy->bit, "policy", clock_name))
return false;
return true;
}
/*
* All gates, if defined, have a status bit, and for hardware-only
* gates, that's it. Gates that can be software controlled also
@ -312,6 +377,7 @@ static bool
peri_clk_data_valid(struct kona_clk *bcm_clk)
{
struct peri_clk_data *peri;
struct bcm_clk_policy *policy;
struct bcm_clk_gate *gate;
struct bcm_clk_sel *sel;
struct bcm_clk_div *div;
@ -331,6 +397,11 @@ peri_clk_data_valid(struct kona_clk *bcm_clk)
peri = bcm_clk->u.peri;
name = bcm_clk->init_data.name;
policy = &peri->policy;
if (policy_exists(policy) && !policy_valid(policy, name))
return false;
gate = &peri->gate;
if (gate_exists(gate) && !gate_valid(gate, "gate", name))
return false;
@ -679,6 +750,21 @@ static void kona_ccu_teardown(struct ccu_data *ccu)
ccu->base = NULL;
}
static bool ccu_data_valid(struct ccu_data *ccu)
{
struct ccu_policy *ccu_policy;
if (!ccu_data_offsets_valid(ccu))
return false;
ccu_policy = &ccu->policy;
if (ccu_policy_exists(ccu_policy))
if (!ccu_policy_valid(ccu_policy, ccu->name))
return false;
return true;
}
/*
* Set up a CCU. Call the provided ccu_clks_setup callback to
* initialize the array of clocks provided by the CCU.
@ -718,6 +804,12 @@ void __init kona_dt_ccu_setup(struct ccu_data *ccu,
}
ccu->range = (u32)range;
if (!ccu_data_valid(ccu)) {
pr_err("%s: ccu data not valid for %s\n", __func__, node->name);
goto out_err;
}
ccu->base = ioremap(res.start, ccu->range);
if (!ccu->base) {
pr_err("%s: unable to map CCU registers for %s\n", __func__,

155
drivers/clk/bcm/clk-kona.c
View File

@ -16,6 +16,14 @@
#include <linux/delay.h>
/*
* "Policies" affect the frequencies of bus clocks provided by a
* CCU. (I believe these polices are named "Deep Sleep", "Economy",
* "Normal", and "Turbo".) A lower policy number has lower power
* consumption, and policy 2 is the default.
*/
#define CCU_POLICY_COUNT 4
#define CCU_ACCESS_PASSWORD 0xA5A500
#define CLK_GATE_DELAY_LOOP 2000
@ -213,6 +221,148 @@ __ccu_wait_bit(struct ccu_data *ccu, u32 reg_offset, u32 bit, bool want)
return false;
}
/* Policy operations */
static bool __ccu_policy_engine_start(struct ccu_data *ccu, bool sync)
{
struct bcm_policy_ctl *control = &ccu->policy.control;
u32 offset;
u32 go_bit;
u32 mask;
bool ret;
/* If we don't need to control policy for this CCU, we're done. */
if (!policy_ctl_exists(control))
return true;
offset = control->offset;
go_bit = control->go_bit;
/* Ensure we're not busy before we start */
ret = __ccu_wait_bit(ccu, offset, go_bit, false);
if (!ret) {
pr_err("%s: ccu %s policy engine wouldn't go idle\n",
__func__, ccu->name);
return false;
}
/*
* If it's a synchronous request, we'll wait for the voltage
* and frequency of the active load to stabilize before
* returning. To do this we select the active load by
* setting the ATL bit.
*
* An asynchronous request instead ramps the voltage in the
* background, and when that process stabilizes, the target
* load is copied to the active load and the CCU frequency
* is switched. We do this by selecting the target load
* (ATL bit clear) and setting the request auto-copy (AC bit
* set).
*
* Note, we do NOT read-modify-write this register.
*/
mask = (u32)1 << go_bit;
if (sync)
mask |= 1 << control->atl_bit;
else
mask |= 1 << control->ac_bit;
__ccu_write(ccu, offset, mask);
/* Wait for indication that operation is complete. */
ret = __ccu_wait_bit(ccu, offset, go_bit, false);
if (!ret)
pr_err("%s: ccu %s policy engine never started\n",
__func__, ccu->name);
return ret;
}
static bool __ccu_policy_engine_stop(struct ccu_data *ccu)
{
struct bcm_lvm_en *enable = &ccu->policy.enable;
u32 offset;
u32 enable_bit;
bool ret;
/* If we don't need to control policy for this CCU, we're done. */
if (!policy_lvm_en_exists(enable))
return true;
/* Ensure we're not busy before we start */
offset = enable->offset;
enable_bit = enable->bit;
ret = __ccu_wait_bit(ccu, offset, enable_bit, false);
if (!ret) {
pr_err("%s: ccu %s policy engine already stopped\n",
__func__, ccu->name);
return false;
}
/* Now set the bit to stop the engine (NO read-modify-write) */
__ccu_write(ccu, offset, (u32)1 << enable_bit);
/* Wait for indication that it has stopped. */
ret = __ccu_wait_bit(ccu, offset, enable_bit, false);
if (!ret)
pr_err("%s: ccu %s policy engine never stopped\n",
__func__, ccu->name);
return ret;
}
/*
* A CCU has four operating conditions ("policies"), and some clocks
* can be disabled or enabled based on which policy is currently in
* effect. Such clocks have a bit in a "policy mask" register for
* each policy indicating whether the clock is enabled for that
* policy or not. The bit position for a clock is the same for all
* four registers, and the 32-bit registers are at consecutive
* addresses.
*/
static bool policy_init(struct ccu_data *ccu, struct bcm_clk_policy *policy)
{
u32 offset;
u32 mask;
int i;
bool ret;
if (!policy_exists(policy))
return true;
/*
* We need to stop the CCU policy engine to allow update
* of our policy bits.
*/
if (!__ccu_policy_engine_stop(ccu)) {
pr_err("%s: unable to stop CCU %s policy engine\n",
__func__, ccu->name);
return false;
}
/*
* For now, if a clock defines its policy bit we just mark
* it "enabled" for all four policies.
*/
offset = policy->offset;
mask = (u32)1 << policy->bit;
for (i = 0; i < CCU_POLICY_COUNT; i++) {
u32 reg_val;
reg_val = __ccu_read(ccu, offset);
reg_val |= mask;
__ccu_write(ccu, offset, reg_val);
offset += sizeof(u32);
}
/* We're done updating; fire up the policy engine again. */
ret = __ccu_policy_engine_start(ccu, true);
if (!ret)
pr_err("%s: unable to restart CCU %s policy engine\n",
__func__, ccu->name);
return ret;
}
/* Gate operations */
/* Determine whether a clock is gated. CCU lock must be held. */
@ -972,6 +1122,11 @@ static bool __peri_clk_init(struct kona_clk *bcm_clk)
BUG_ON(bcm_clk->type != bcm_clk_peri);
if (!policy_init(ccu, &peri->policy)) {
pr_err("%s: error initializing policy for %s\n",
__func__, name);
return false;
}
if (!gate_init(ccu, &peri->gate)) {
pr_err("%s: error initializing gate for %s\n", __func__, name);
return false;

71
drivers/clk/bcm/clk-kona.h
View File

@ -43,8 +43,14 @@
#define FLAG_FLIP(obj, type, flag) ((obj)->flags ^= FLAG(type, flag))
#define FLAG_TEST(obj, type, flag) (!!((obj)->flags & FLAG(type, flag)))
/* CCU field state tests */
#define ccu_policy_exists(ccu_policy) ((ccu_policy)->enable.offset != 0)
/* Clock field state tests */
#define policy_exists(policy) ((policy)->offset != 0)
#define gate_exists(gate) FLAG_TEST(gate, GATE, EXISTS)
#define gate_is_enabled(gate) FLAG_TEST(gate, GATE, ENABLED)
#define gate_is_hw_controllable(gate) FLAG_TEST(gate, GATE, HW)
@ -62,6 +68,9 @@
#define selector_exists(sel) ((sel)->width != 0)
#define trigger_exists(trig) FLAG_TEST(trig, TRIG, EXISTS)
#define policy_lvm_en_exists(enable) ((enable)->offset != 0)
#define policy_ctl_exists(control) ((control)->offset != 0)
/* Clock type, used to tell common block what it's part of */
enum bcm_clk_type {
bcm_clk_none, /* undefined clock type */
@ -70,6 +79,27 @@ enum bcm_clk_type {
bcm_clk_peri
};
/*
* CCU policy control for clocks. Clocks can be enabled or disabled
* based on the CCU policy in effect. One bit in each policy mask
* register (one per CCU policy) represents whether the clock is
* enabled when that policy is effect or not. The CCU policy engine
* must be stopped to update these bits, and must be restarted again
* afterward.
*/
struct bcm_clk_policy {
u32 offset; /* first policy mask register offset */
u32 bit; /* bit used in all mask registers */
};
/* Policy initialization macro */
#define POLICY(_offset, _bit) \
{ \
.offset = (_offset), \
.bit = (_bit), \
}
/*
* Gating control and status is managed by a 32-bit gate register.
*
@ -340,6 +370,7 @@ struct bcm_clk_trig {
}
struct peri_clk_data {
struct bcm_clk_policy policy;
struct bcm_clk_gate gate;
struct bcm_clk_trig pre_trig;
struct bcm_clk_div pre_div;
@ -377,6 +408,45 @@ struct kona_clk {
}
#define LAST_KONA_CLK { .type = bcm_clk_none }
/*
* CCU policy control. To enable software update of the policy
* tables the CCU policy engine must be stopped by setting the
* software update enable bit (LVM_EN). After an update the engine
* is restarted using the GO bit and either the GO_ATL or GO_AC bit.
*/
struct bcm_lvm_en {
u32 offset; /* LVM_EN register offset */
u32 bit; /* POLICY_CONFIG_EN bit in register */
};
/* Policy enable initialization macro */
#define CCU_LVM_EN(_offset, _bit) \
{ \
.offset = (_offset), \
.bit = (_bit), \
}
struct bcm_policy_ctl {
u32 offset; /* POLICY_CTL register offset */
u32 go_bit;
u32 atl_bit; /* GO, GO_ATL, and GO_AC bits */
u32 ac_bit;
};
/* Policy control initialization macro */
#define CCU_POLICY_CTL(_offset, _go_bit, _ac_bit, _atl_bit) \
{ \
.offset = (_offset), \
.go_bit = (_go_bit), \
.ac_bit = (_ac_bit), \
.atl_bit = (_atl_bit), \
}
struct ccu_policy {
struct bcm_lvm_en enable;
struct bcm_policy_ctl control;
};
/*
* Each CCU defines a mapped area of memory containing registers
* used to manage clocks implemented by the CCU. Access to memory
@ -390,6 +460,7 @@ struct ccu_data {
void __iomem *base; /* base of mapped address space */
spinlock_t lock; /* serialization lock */
bool write_enabled; /* write access is currently enabled */
struct ccu_policy policy;
struct list_head links; /* for ccu_list */
struct device_node *node;
struct clk_onecell_data clk_data;