static u32 *save_regs_v0(u32 *ptr, unsigned int *pending,
struct nvhost_channel *ch,
const struct hwctx_reginfo *regs,
unsigned int nr_regs)
{
const struct hwctx_reginfo *rend = regs + nr_regs;
int drain_result = 0;
for ( ; regs != rend; ++regs) {
u32 count = regs->count;
switch (regs->type) {
case HWCTX_REGINFO_DIRECT:
ptr += RESTORE_DIRECT_SIZE;
break;
case HWCTX_REGINFO_INDIRECT:
case HWCTX_REGINFO_INDIRECT_4X:
ptr += RESTORE_INDIRECT_SIZE;
break;
}
drain_result = nvhost_channel_drain_read_fifo(ch,
ptr, count, pending);
BUG_ON(drain_result < 0);
ptr += count;
}
return ptr;
}
int nvhost_gr3d_t20_read_reg(
struct nvhost_device *dev,
struct nvhost_channel *channel,
struct nvhost_hwctx *hwctx,
u32 offset,
u32 *value)
{
struct host1x_hwctx *hwctx_to_save = NULL;
struct nvhost_hwctx_handler *h = hwctx->h;
struct host1x_hwctx_handler *p = to_host1x_hwctx_handler(h);
bool need_restore = false;
u32 syncpt_incrs = 4;
unsigned int pending = 0;
DECLARE_WAIT_QUEUE_HEAD_ONSTACK(wq);
void *ref;
void *ctx_waiter, *read_waiter, *completed_waiter;
struct nvhost_job *job;
u32 syncval;
int err;
if (hwctx->has_timedout)
return -ETIMEDOUT;
ctx_waiter = nvhost_intr_alloc_waiter();
read_waiter = nvhost_intr_alloc_waiter();
completed_waiter = nvhost_intr_alloc_waiter();
if (!ctx_waiter || !read_waiter || !completed_waiter) {
err = -ENOMEM;
goto done;
}
job = nvhost_job_alloc(channel, hwctx,
NULL,
nvhost_get_host(dev)->memmgr, 0, 0);
if (!job) {
err = -ENOMEM;
goto done;
}
/* keep module powered */
nvhost_module_busy(dev);
/* get submit lock */
err = mutex_lock_interruptible(&channel->submitlock);
if (err) {
nvhost_module_idle(dev);
return err;
}
/* context switch */
if (channel->cur_ctx != hwctx) {
hwctx_to_save = channel->cur_ctx ?
to_host1x_hwctx(channel->cur_ctx) : NULL;
if (hwctx_to_save) {
syncpt_incrs += hwctx_to_save->save_incrs;
hwctx_to_save->hwctx.valid = true;
nvhost_job_get_hwctx(job, &hwctx_to_save->hwctx);
}
channel->cur_ctx = hwctx;
if (channel->cur_ctx && channel->cur_ctx->valid) {
need_restore = true;
syncpt_incrs += to_host1x_hwctx(channel->cur_ctx)
->restore_incrs;
}
}
syncval = nvhost_syncpt_incr_max(&nvhost_get_host(dev)->syncpt,
p->syncpt, syncpt_incrs);
job->syncpt_id = p->syncpt;
job->syncpt_incrs = syncpt_incrs;
job->syncpt_end = syncval;
/* begin a CDMA submit */
nvhost_cdma_begin(&channel->cdma, job);
/* push save buffer (pre-gather setup depends on unit) */
if (hwctx_to_save)
h->save_push(&hwctx_to_save->hwctx, &channel->cdma);
/* gather restore buffer */
if (need_restore)
nvhost_cdma_push(&channel->cdma,
nvhost_opcode_gather(to_host1x_hwctx(channel->cur_ctx)
->restore_size),
to_host1x_hwctx(channel->cur_ctx)->restore_phys);
/* Switch to 3D - wait for it to complete what it was doing */
nvhost_cdma_push(&channel->cdma,
nvhost_opcode_setclass(NV_GRAPHICS_3D_CLASS_ID, 0, 0),
nvhost_opcode_imm_incr_syncpt(
host1x_uclass_incr_syncpt_cond_op_done_v(),
p->syncpt));
nvhost_cdma_push(&channel->cdma,
nvhost_opcode_setclass(NV_HOST1X_CLASS_ID,
host1x_uclass_wait_syncpt_base_r(), 1),
nvhost_class_host_wait_syncpt_base(p->syncpt,
p->waitbase, 1));
/* Tell 3D to send register value to FIFO */
nvhost_cdma_push(&channel->cdma,
nvhost_opcode_nonincr(host1x_uclass_indoff_r(), 1),
nvhost_class_host_indoff_reg_read(
host1x_uclass_indoff_indmodid_gr3d_v(),
offset, false));
nvhost_cdma_push(&channel->cdma,
nvhost_opcode_imm(host1x_uclass_inddata_r(), 0),
NVHOST_OPCODE_NOOP);
/* Increment syncpt to indicate that FIFO can be read */
nvhost_cdma_push(&channel->cdma,
nvhost_opcode_imm_incr_syncpt(
host1x_uclass_incr_syncpt_cond_immediate_v(),
p->syncpt),
NVHOST_OPCODE_NOOP);
/* Wait for value to be read from FIFO */
nvhost_cdma_push(&channel->cdma,
nvhost_opcode_nonincr(host1x_uclass_wait_syncpt_base_r(), 1),
nvhost_class_host_wait_syncpt_base(p->syncpt,
p->waitbase, 3));
/* Indicate submit complete */
nvhost_cdma_push(&channel->cdma,
nvhost_opcode_nonincr(host1x_uclass_incr_syncpt_base_r(), 1),
nvhost_class_host_incr_syncpt_base(p->waitbase, 4));
nvhost_cdma_push(&channel->cdma,
NVHOST_OPCODE_NOOP,
nvhost_opcode_imm_incr_syncpt(
host1x_uclass_incr_syncpt_cond_immediate_v(),
p->syncpt));
/* end CDMA submit */
nvhost_cdma_end(&channel->cdma, job);
nvhost_job_put(job);
job = NULL;
/*
* schedule a context save interrupt (to drain the host FIFO
* if necessary, and to release the restore buffer)
*/
if (hwctx_to_save) {
err = nvhost_intr_add_action(
&nvhost_get_host(dev)->intr,
p->syncpt,
syncval - syncpt_incrs
+ hwctx_to_save->save_incrs
- 1,
NVHOST_INTR_ACTION_CTXSAVE, hwctx_to_save,
ctx_waiter,
NULL);
ctx_waiter = NULL;
WARN(err, "Failed to set context save interrupt");
}
/* Wait for FIFO to be ready */
err = nvhost_intr_add_action(&nvhost_get_host(dev)->intr,
p->syncpt, syncval - 2,
NVHOST_INTR_ACTION_WAKEUP, &wq,
read_waiter,
&ref);
read_waiter = NULL;
WARN(err, "Failed to set wakeup interrupt");
wait_event(wq,
nvhost_syncpt_is_expired(&nvhost_get_host(dev)->syncpt,
p->syncpt, syncval - 2));
nvhost_intr_put_ref(&nvhost_get_host(dev)->intr, p->syncpt,
ref);
/* Read the register value from FIFO */
err = nvhost_channel_drain_read_fifo(channel, value, 1, &pending);
/* Indicate we've read the value */
nvhost_syncpt_cpu_incr(&nvhost_get_host(dev)->syncpt,
p->syncpt);
/* Schedule a submit complete interrupt */
err = nvhost_intr_add_action(&nvhost_get_host(dev)->intr,
p->syncpt, syncval,
NVHOST_INTR_ACTION_SUBMIT_COMPLETE, channel,
completed_waiter, NULL);
completed_waiter = NULL;
WARN(err, "Failed to set submit complete interrupt");
mutex_unlock(&channel->submitlock);
done:
kfree(ctx_waiter);
kfree(read_waiter);
kfree(completed_waiter);
return err;
}
