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fuchsia / fuchsia / 6813b0870934b4190a586e3d4907a5da9c12d657 / . / src / devices / spi / drivers / spi / spi.cc
blob: e64c704f06264a838a90adf0865b87100326d0be [file] [log] [blame]
// Copyright 2019 The Fuchsia Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "spi.h"
#include <lib/ddk/debug.h>
#include <lib/ddk/metadata.h>
#include "src/devices/spi/drivers/spi/spi_bind.h"
namespace spi {
void SpiDevice::DdkUnbind(ddk::UnbindTxn txn) {
children_.reset();
txn.Reply();
}
void SpiDevice::DdkRelease() { delete this; }
zx_status_t SpiDevice::Create(void* ctx, zx_device_t* parent) {
spi_impl_protocol_t spi;
auto status = device_get_protocol(parent, ZX_PROTOCOL_SPI_IMPL, &spi);
if (status != ZX_OK) {
return status;
}
uint32_t bus_id;
size_t actual;
status = device_get_metadata(parent, DEVICE_METADATA_PRIVATE, &bus_id, sizeof bus_id, &actual);
if (status != ZX_OK) {
return status;
}
fbl::AllocChecker ac;
std::unique_ptr<SpiDevice> device(new (&ac) SpiDevice(parent, &spi, bus_id));
if (!ac.check()) {
return ZX_ERR_NO_MEMORY;
}
status = device->DdkAdd("spi");
if (status != ZX_OK) {
return status;
}
device->AddChildren();
__UNUSED auto* dummy = device.release();
return ZX_OK;
}
void SpiDevice::AddChildren() {
size_t metadata_size;
auto status = device_get_metadata_size(zxdev(), DEVICE_METADATA_SPI_CHANNELS, &metadata_size);
if (status != ZX_OK) {
zxlogf(ERROR, "%s: device_get_metadata_size failed %d", __func__, status);
return;
}
auto channel_count = metadata_size / sizeof(spi_channel_t);
fbl::AllocChecker ac;
std::unique_ptr<spi_channel_t[]> channels(new (&ac) spi_channel_t[channel_count]);
if (!ac.check()) {
zxlogf(ERROR, "%s: out of memory", __func__);
return;
}
size_t actual;
status = device_get_metadata(zxdev(), DEVICE_METADATA_SPI_CHANNELS, channels.get(), metadata_size,
&actual);
if (status != ZX_OK || actual != metadata_size) {
zxlogf(ERROR, "%s: device_get_metadata failed %d", __func__, status);
return;
}
for (uint32_t i = 0; i < channel_count; i++) {
const auto& channel = channels[i];
const auto bus_id = channel.bus_id;
if (channel.bus_id != bus_id_) {
continue;
}
const auto cs = channel.cs;
const auto vid = channel.vid;
const auto pid = channel.pid;
const auto did = channel.did;
fbl::AllocChecker ac;
auto dev = fbl::MakeRefCountedChecked<SpiChild>(&ac, zxdev(), spi_, &channel, this);
if (!ac.check()) {
zxlogf(ERROR, "%s: out of memory", __func__);
return;
}
char name[20];
snprintf(name, sizeof(name), "spi-%u-%u", bus_id, cs);
if (vid || pid || did) {
zx_device_prop_t props[] = {
{BIND_SPI_BUS_ID, 0, bus_id},
{BIND_SPI_CHIP_SELECT, 0, cs},
{BIND_TOPO_SPI, 0, BIND_TOPO_SPI_PACK(bus_id, cs)},
{BIND_PLATFORM_DEV_VID, 0, vid},
{BIND_PLATFORM_DEV_PID, 0, pid},
{BIND_PLATFORM_DEV_DID, 0, did},
};
status = dev->DdkAdd(ddk::DeviceAddArgs(name).set_props(props).set_proto_id(ZX_PROTOCOL_SPI));
} else {
zx_device_prop_t props[] = {
{BIND_SPI_BUS_ID, 0, bus_id},
{BIND_SPI_CHIP_SELECT, 0, cs},
{BIND_TOPO_SPI, 0, BIND_TOPO_SPI_PACK(bus_id, cs)},
};
status = dev->DdkAdd(ddk::DeviceAddArgs(name).set_props(props).set_proto_id(ZX_PROTOCOL_SPI));
}
if (status != ZX_OK) {
zxlogf(ERROR, "%s: DdkAdd failed %d", __func__, status);
return;
}
// save a reference for cleanup
children_.push_back(dev);
}
}
void SpiDevice::ConnectServer(zx::channel server, SpiChild* const child) {
if (!loop_started_.exchange(true)) {
zx_status_t status;
if ((status = loop_.StartThread("spi-child-thread")) != ZX_OK) {
zxlogf(ERROR, "Failed to start async loop: %d", status);
}
}
fidl::BindServer(loop_.dispatcher(), std::move(server), child);
}
static zx_driver_ops_t driver_ops = []() {
zx_driver_ops_t ops = {};
ops.version = DRIVER_OPS_VERSION;
ops.bind = SpiDevice::Create;
return ops;
}();
} // namespace spi
ZIRCON_DRIVER(spi, spi::driver_ops, "zircon", "0.1");