static void a2xx_cp_intrcallback(struct kgsl_device *device)
{
unsigned int status = 0, num_reads = 0, master_status = 0;
struct adreno_device *adreno_dev = ADRENO_DEVICE(device);
struct adreno_ringbuffer *rb = &adreno_dev->ringbuffer;
int i;
adreno_regread(device, REG_MASTER_INT_SIGNAL, &master_status);
while (!status && (num_reads < VALID_STATUS_COUNT_MAX) &&
(master_status & MASTER_INT_SIGNAL__CP_INT_STAT)) {
adreno_regread(device, REG_CP_INT_STATUS, &status);
adreno_regread(device, REG_MASTER_INT_SIGNAL,
&master_status);
num_reads++;
}
if (num_reads > 1)
KGSL_DRV_WARN(device,
"Looped %d times to read REG_CP_INT_STATUS\n",
num_reads);
trace_kgsl_a2xx_irq_status(device, master_status, status);
if (!status) {
if (master_status & MASTER_INT_SIGNAL__CP_INT_STAT) {
KGSL_DRV_WARN(device, "Unable to read CP_INT_STATUS\n");
wake_up_interruptible_all(&device->wait_queue);
} else
KGSL_DRV_WARN(device, "Spurious interrput detected\n");
return;
}
for (i = 0; i < ARRAY_SIZE(kgsl_cp_error_irqs); i++) {
if (status & kgsl_cp_error_irqs[i].mask) {
KGSL_CMD_CRIT(rb->device, "%s\n",
kgsl_cp_error_irqs[i].message);
kgsl_pwrctrl_irq(rb->device, KGSL_PWRFLAGS_OFF);
}
}
status &= CP_INT_MASK;
adreno_regwrite(device, REG_CP_INT_ACK, status);
if (status & (CP_INT_CNTL__IB1_INT_MASK | CP_INT_CNTL__RB_INT_MASK)) {
KGSL_CMD_WARN(rb->device, "ringbuffer ib1/rb interrupt\n");
queue_work(device->work_queue, &device->ts_expired_ws);
wake_up_interruptible_all(&device->wait_queue);
}
}
/* Caller must hold the device mutex. */
int kgsl_pwrctrl_wake(struct kgsl_device *device)
{
int status = KGSL_SUCCESS;
struct kgsl_pwrctrl *pwr = &device->pwrctrl;
BUG_ON(!mutex_is_locked(&device->mutex));
if (device->state == KGSL_STATE_SUSPEND)
return status;
KGSL_DRV_INFO("GRP_CLK= %lu BUS CLK= %lu\n",
kgsl_get_clkrate(pwr->grp_clk), kgsl_get_clkrate(pwr->ebi1_clk));
/* Turn on the core clocks */
status = kgsl_pwrctrl_clk(device, KGSL_PWRFLAGS_CLK_ON);
if (device->state != KGSL_STATE_NAP) {
kgsl_pwrctrl_axi(device, KGSL_PWRFLAGS_AXI_ON);
}
/* Enable state before turning on irq */
device->state = KGSL_STATE_ACTIVE;
KGSL_DRV_WARN("state -> ACTIVE, device %d\n", device->id);
kgsl_pwrctrl_irq(device, KGSL_PWRFLAGS_IRQ_ON);
/* Re-enable HW access */
mod_timer(&device->idle_timer, jiffies + FIRST_TIMEOUT);
KGSL_DRV_VDBG("<-- kgsl_yamato_wake(). Return value %d\n", status);
wake_lock(&device->idle_wakelock);
return status;
}
static void a2xx_rbbm_intrcallback(struct kgsl_device *device)
{
unsigned int status = 0;
unsigned int rderr = 0;
unsigned int addr = 0;
const char *source;
adreno_regread(device, REG_RBBM_INT_STATUS, &status);
if (status & RBBM_INT_CNTL__RDERR_INT_MASK) {
adreno_regread(device, REG_RBBM_READ_ERROR, &rderr);
source = (rderr & RBBM_READ_ERROR_REQUESTER)
? "host" : "cp";
addr = (rderr & RBBM_READ_ERROR_ADDRESS_MASK) >> 2;
if (addr == REG_CP_INT_STATUS &&
rderr & RBBM_READ_ERROR_ERROR &&
rderr & RBBM_READ_ERROR_REQUESTER)
KGSL_DRV_WARN(device,
"rbbm read error interrupt: %s reg: %04X\n",
source, addr);
else
KGSL_DRV_CRIT(device,
"rbbm read error interrupt: %s reg: %04X\n",
source, addr);
}
static inline void kgsl_fence_event_cb(struct kgsl_device *device,
void *priv, u32 timestamp)
{
struct kgsl_fence_event_priv *ev = priv;
if (ev != NULL) {
kgsl_sync_timeline_signal(ev->timeline, ev->timestamp);
kfree(ev);
} else {
KGSL_DRV_WARN(device, "kgsl_sync_timeline_signal Failed ..!!\n");
}
}
/* Caller must hold the device mutex. */
int kgsl_pwrctrl_sleep(struct kgsl_device *device)
{
struct kgsl_pwrctrl *pwr = &device->pwrctrl;
KGSL_DRV_INFO("device %d, current state= %d, resquested change= %d!!\n",
device->id, device->state, device->requested_state);
KGSL_DRV_INFO("GRP_CLK= %lu BUS CLK= %lu\n",
kgsl_get_clkrate(pwr->grp_clk), kgsl_get_clkrate(pwr->ebi1_clk));
/* Work through the legal state transitions */
if (device->requested_state == KGSL_STATE_NAP) {
if (device->ftbl.device_isidle(device))
goto nap;
} else if (device->requested_state == KGSL_STATE_SLEEP) {
if (device->state == KGSL_STATE_NAP ||
device->ftbl.device_isidle(device))
goto sleep;
}
device->requested_state = KGSL_STATE_NONE;
return KGSL_FAILURE;
sleep:
kgsl_pwrctrl_irq(device, KGSL_PWRFLAGS_IRQ_OFF);
kgsl_pwrctrl_axi(device, KGSL_PWRFLAGS_AXI_OFF);
goto clk_off;
nap:
kgsl_pwrctrl_irq(device, KGSL_PWRFLAGS_IRQ_OFF);
clk_off:
kgsl_pwrctrl_clk(device, KGSL_PWRFLAGS_CLK_OFF);
device->state = device->requested_state;
device->requested_state = KGSL_STATE_NONE;
wake_unlock(&device->idle_wakelock);
KGSL_DRV_WARN("state -> NAP/SLEEP(%d), device %d\n",
device->state, device->id);
return KGSL_SUCCESS;
}
static void a2xx_rbbm_intrcallback(struct kgsl_device *device)
{
unsigned int status = 0;
unsigned int rderr = 0;
adreno_regread(device, REG_RBBM_INT_STATUS, &status);
if (status & RBBM_INT_CNTL__RDERR_INT_MASK) {
union rbbm_read_error_u rerr;
adreno_regread(device, REG_RBBM_READ_ERROR, &rderr);
rerr.val = rderr;
if (rerr.f.read_address == REG_CP_INT_STATUS &&
rerr.f.read_error &&
rerr.f.read_requester)
KGSL_DRV_WARN(device,
"rbbm read error interrupt: %08x\n", rderr);
else
KGSL_DRV_CRIT(device,
"rbbm read error interrupt: %08x\n", rderr);
}
status &= RBBM_INT_MASK;
adreno_regwrite(device, REG_RBBM_INT_ACK, status);
}
/* functions */
void kgsl_cp_intrcallback(struct kgsl_device *device)
{
unsigned int status = 0, num_reads = 0, master_status = 0;
struct kgsl_yamato_device *yamato_device = KGSL_YAMATO_DEVICE(device);
struct kgsl_ringbuffer *rb = &yamato_device->ringbuffer;
kgsl_yamato_regread_isr(device, REG_MASTER_INT_SIGNAL, &master_status);
while (!status && (num_reads < VALID_STATUS_COUNT_MAX) &&
(master_status & MASTER_INT_SIGNAL__CP_INT_STAT)) {
kgsl_yamato_regread_isr(device, REG_CP_INT_STATUS, &status);
kgsl_yamato_regread_isr(device, REG_MASTER_INT_SIGNAL,
&master_status);
num_reads++;
}
if (num_reads > 1)
KGSL_DRV_WARN(device,
"Looped %d times to read REG_CP_INT_STATUS\n",
num_reads);
if (!status) {
if (master_status & MASTER_INT_SIGNAL__CP_INT_STAT) {
/* This indicates that we could not read CP_INT_STAT.
* As a precaution just wake up processes so
* they can check their timestamps. Since, we
* did not ack any interrupts this interrupt will
* be generated again */
KGSL_DRV_WARN(device, "Unable to read CP_INT_STATUS\n");
wake_up_interruptible_all(&device->wait_queue);
} else
KGSL_DRV_WARN(device, "Spurious interrput detected\n");
return;
}
if (status & CP_INT_CNTL__RB_INT_MASK) {
/* signal intr completion event */
unsigned int enableflag = 0;
kgsl_sharedmem_writel(&rb->device->memstore,
KGSL_DEVICE_MEMSTORE_OFFSET(ts_cmp_enable),
enableflag);
wmb();
KGSL_CMD_WARN(rb->device, "ringbuffer rb interrupt\n");
}
if (status & CP_INT_CNTL__T0_PACKET_IN_IB_MASK) {
KGSL_CMD_CRIT(rb->device,
"ringbuffer TO packet in IB interrupt\n");
kgsl_yamato_regwrite_isr(rb->device, REG_CP_INT_CNTL, 0);
}
if (status & CP_INT_CNTL__OPCODE_ERROR_MASK) {
KGSL_CMD_CRIT(rb->device,
"ringbuffer opcode error interrupt\n");
kgsl_yamato_regwrite_isr(rb->device, REG_CP_INT_CNTL, 0);
}
if (status & CP_INT_CNTL__PROTECTED_MODE_ERROR_MASK) {
KGSL_CMD_CRIT(rb->device,
"ringbuffer protected mode error interrupt\n");
kgsl_yamato_regwrite_isr(rb->device, REG_CP_INT_CNTL, 0);
}
if (status & CP_INT_CNTL__RESERVED_BIT_ERROR_MASK) {
KGSL_CMD_CRIT(rb->device,
"ringbuffer reserved bit error interrupt\n");
kgsl_yamato_regwrite_isr(rb->device, REG_CP_INT_CNTL, 0);
}
if (status & CP_INT_CNTL__IB_ERROR_MASK) {
KGSL_CMD_CRIT(rb->device,
"ringbuffer IB error interrupt\n");
kgsl_yamato_regwrite_isr(rb->device, REG_CP_INT_CNTL, 0);
}
if (status & CP_INT_CNTL__SW_INT_MASK)
KGSL_CMD_INFO(rb->device, "ringbuffer software interrupt\n");
if (status & CP_INT_CNTL__IB2_INT_MASK)
KGSL_CMD_INFO(rb->device, "ringbuffer ib2 interrupt\n");
if (status & (~GSL_CP_INT_MASK))
KGSL_CMD_WARN(rb->device,
"bad bits in REG_CP_INT_STATUS %08x\n", status);
/* only ack bits we understand */
status &= GSL_CP_INT_MASK;
kgsl_yamato_regwrite_isr(device, REG_CP_INT_ACK, status);
if (status & (CP_INT_CNTL__IB1_INT_MASK | CP_INT_CNTL__RB_INT_MASK)) {
KGSL_CMD_WARN(rb->device, "ringbuffer ib1/rb interrupt\n");
wake_up_interruptible_all(&device->wait_queue);
atomic_notifier_call_chain(&(device->ts_notifier_list),
KGSL_DEVICE_YAMATO,
NULL);
}
}
static void a2xx_cp_intrcallback(struct kgsl_device *device)
{
unsigned int status = 0, num_reads = 0, master_status = 0;
struct adreno_device *adreno_dev = ADRENO_DEVICE(device);
struct adreno_ringbuffer *rb = &adreno_dev->ringbuffer;
int i;
adreno_regread(device, REG_MASTER_INT_SIGNAL, &master_status);
while (!status && (num_reads < VALID_STATUS_COUNT_MAX) &&
(master_status & MASTER_INT_SIGNAL__CP_INT_STAT)) {
adreno_regread(device, REG_CP_INT_STATUS, &status);
adreno_regread(device, REG_MASTER_INT_SIGNAL,
&master_status);
num_reads++;
}
if (num_reads > 1)
KGSL_DRV_WARN(device,
"Looped %d times to read REG_CP_INT_STATUS\n",
num_reads);
if (!status) {
if (master_status & MASTER_INT_SIGNAL__CP_INT_STAT) {
/* This indicates that we could not read CP_INT_STAT.
* As a precaution just wake up processes so
* they can check their timestamps. Since, we
* did not ack any interrupts this interrupt will
* be generated again */
KGSL_DRV_WARN(device, "Unable to read CP_INT_STATUS\n");
wake_up_interruptible_all(&device->wait_queue);
} else
KGSL_DRV_WARN(device, "Spurious interrput detected\n");
return;
}
if (status & CP_INT_CNTL__RB_INT_MASK) {
/* signal intr completion event */
unsigned int enableflag = 0;
kgsl_sharedmem_writel(&rb->device->memstore,
KGSL_DEVICE_MEMSTORE_OFFSET(ts_cmp_enable),
enableflag);
wmb();
KGSL_CMD_WARN(rb->device, "ringbuffer rb interrupt\n");
}
for (i = 0; i < ARRAY_SIZE(kgsl_cp_error_irqs); i++) {
if (status & kgsl_cp_error_irqs[i].mask) {
KGSL_CMD_CRIT(rb->device, "%s\n",
kgsl_cp_error_irqs[i].message);
/*
* on fatal errors, turn off the interrupts to
* avoid storming. This has the side effect of
* forcing a PM dump when the timestamp times out
*/
kgsl_pwrctrl_irq(rb->device, KGSL_PWRFLAGS_OFF);
}
}
/* only ack bits we understand */
status &= CP_INT_MASK;
adreno_regwrite(device, REG_CP_INT_ACK, status);
if (status & (CP_INT_CNTL__IB1_INT_MASK | CP_INT_CNTL__RB_INT_MASK)) {
KGSL_CMD_WARN(rb->device, "ringbuffer ib1/rb interrupt\n");
queue_work(device->work_queue, &device->ts_expired_ws);
wake_up_interruptible_all(&device->wait_queue);
atomic_notifier_call_chain(&(device->ts_notifier_list),
device->id,
NULL);
}
}
void kgsl_cp_intrcallback(struct kgsl_device *device)
{
unsigned int status = 0, num_reads = 0, master_status = 0;
struct kgsl_yamato_device *yamato_device = (struct kgsl_yamato_device *)
device;
struct kgsl_ringbuffer *rb = &device->ringbuffer;
KGSL_CMD_VDBG("enter (device=%p)\n", device);
kgsl_yamato_regread(device, REG_MASTER_INT_SIGNAL, &master_status);
while (!status && (num_reads < VALID_STATUS_COUNT_MAX) &&
(master_status & MASTER_INT_SIGNAL__CP_INT_STAT)) {
kgsl_yamato_regread(device, REG_CP_INT_STATUS, &status);
kgsl_yamato_regread(device, REG_MASTER_INT_SIGNAL,
&master_status);
num_reads++;
}
if (num_reads > 1)
KGSL_DRV_WARN("Looped %d times to read REG_CP_INT_STATUS\n",
num_reads);
if (!status) {
if (master_status & MASTER_INT_SIGNAL__CP_INT_STAT) {
KGSL_DRV_WARN("Unable to read CP_INT_STATUS\n");
wake_up_interruptible_all(&yamato_device->ib1_wq);
} else
KGSL_DRV_WARN("Spurious interrput detected\n");
return;
}
if (status & CP_INT_CNTL__RB_INT_MASK) {
unsigned int enableflag = 0;
kgsl_sharedmem_writel(&rb->device->memstore,
KGSL_DEVICE_MEMSTORE_OFFSET(ts_cmp_enable),
enableflag);
wmb();
KGSL_CMD_WARN("ringbuffer rb interrupt\n");
}
if (status & CP_INT_CNTL__T0_PACKET_IN_IB_MASK) {
KGSL_CMD_FATAL("ringbuffer TO packet in IB interrupt\n");
kgsl_yamato_regwrite(rb->device, REG_CP_INT_CNTL, 0);
kgsl_ringbuffer_dump(rb);
}
if (status & CP_INT_CNTL__OPCODE_ERROR_MASK) {
KGSL_CMD_FATAL("ringbuffer opcode error interrupt\n");
kgsl_yamato_regwrite(rb->device, REG_CP_INT_CNTL, 0);
kgsl_ringbuffer_dump(rb);
}
if (status & CP_INT_CNTL__PROTECTED_MODE_ERROR_MASK) {
KGSL_CMD_FATAL("ringbuffer protected mode error interrupt\n");
kgsl_yamato_regwrite(rb->device, REG_CP_INT_CNTL, 0);
kgsl_ringbuffer_dump(rb);
}
if (status & CP_INT_CNTL__RESERVED_BIT_ERROR_MASK) {
KGSL_CMD_FATAL("ringbuffer reserved bit error interrupt\n");
kgsl_yamato_regwrite(rb->device, REG_CP_INT_CNTL, 0);
kgsl_ringbuffer_dump(rb);
}
if (status & CP_INT_CNTL__IB_ERROR_MASK) {
KGSL_CMD_FATAL("ringbuffer IB error interrupt\n");
kgsl_yamato_regwrite(rb->device, REG_CP_INT_CNTL, 0);
kgsl_ringbuffer_dump(rb);
}
if (status & CP_INT_CNTL__SW_INT_MASK)
KGSL_CMD_DBG("ringbuffer software interrupt\n");
if (status & CP_INT_CNTL__IB2_INT_MASK)
KGSL_CMD_DBG("ringbuffer ib2 interrupt\n");
if (status & (~GSL_CP_INT_MASK))
KGSL_CMD_DBG("bad bits in REG_CP_INT_STATUS %08x\n", status);
status &= GSL_CP_INT_MASK;
kgsl_yamato_regwrite(device, REG_CP_INT_ACK, status);
if (status & (CP_INT_CNTL__IB1_INT_MASK | CP_INT_CNTL__RB_INT_MASK)) {
KGSL_CMD_WARN("ringbuffer ib1/rb interrupt\n");
wake_up_interruptible_all(&yamato_device->ib1_wq);
atomic_notifier_call_chain(&(device->ts_notifier_list),
KGSL_DEVICE_YAMATO,
NULL);
}
KGSL_CMD_VDBG("return\n");
}
