src/devices/tests/sysdev/sysdev.cc - fuchsia - Git at Google

 // Copyright 2018 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 "src/devices/tests/sysdev/sysdev.h"

 #include <fuchsia/boot/c/fidl.h>
 #include <lib/zx/channel.h>
 #include <lib/zx/vmar.h>
 #include <lib/zx/vmo.h>
 #include <zircon/assert.h>
 #include <zircon/boot/image.h>
 #include <zircon/types.h>

 #include <memory>

 #include <ddk/device.h>
 #include <ddk/driver.h>
 #include <ddk/platform-defs.h>
 #include <ddktl/device.h>

 #include "src/devices/tests/sysdev/sysdev-bind.h"

 namespace {

 class Sysdev;
 using SysdevType = ddk::Device<Sysdev>;

 class Sysdev : public SysdevType {
  public:
   explicit Sysdev(zx_device_t* device) : SysdevType(device) {}

   static zx_status_t Create(void* ctx, zx_device_t* parent, const char* name, const char* args,
                             zx_handle_t items_svc_handle);

   // Device protocol implementation.
   void DdkRelease() {
     // sysdev should never have its release called.
     ZX_ASSERT_MSG(false, "Sysdev::DdkRelease() invoked!\n");
   }

   zx_status_t MakeComposite();
 };

 zx_status_t Sysdev::Create(void* ctx, zx_device_t* parent, const char* name, const char* args,
                            zx_handle_t items_svc_handle) {
   zx::channel items_svc(items_svc_handle);
   auto sysdev = std::make_unique<Sysdev>(parent);

   // Check if we were sent configuration data
   zx::vmo payload;
   uint32_t payload_len = 0;
   if (items_svc.is_valid()) {
     zx_status_t status = fuchsia_boot_ItemsGet(items_svc.get(), ZBI_TYPE_DRV_BOARD_PRIVATE, 0,
                                                payload.reset_and_get_address(), &payload_len);
     if (status != ZX_OK) {
       return status;
     }
   }

   uintptr_t payload_addr = 0;
   if (payload_len > 0) {
     zx_status_t status =
         zx::vmar::root_self()->map(ZX_VM_PERM_READ, 0, payload, 0, payload_len, &payload_addr);
     if (status != ZX_OK) {
       return status;
     }
   }
   payload.reset();

   zx_status_t status = sysdev->DdkAdd(ddk::DeviceAddArgs("sys").set_flags(DEVICE_ADD_NON_BINDABLE));
   if (status != ZX_OK) {
     return status;
   }

   // If we were sent configuration data, check to see if we were told to
   // create a composite.  If so, we will create a composite out of
   // "well-known" devices that the test may create.  These are children with
   // the PLATFORM_DEV properties
   // (PDEV_VID_TEST, PDEV_PID_LIBDRIVER_TEST, PDEV_DID_TEST_CHILD_1) and
   // (PDEV_VID_TEST, PDEV_PID_LIBDRIVER_TEST, PDEV_DID_TEST_CHILD_2).
   // The resulting composite will have PLATFORM_DEV properties
   // (PDEV_VID_TEST, PDEV_PID_LIBDRIVER_TEST, PDEV_DID_TEST_COMPOSITE).
   if (payload_len >= sizeof(bool)) {
     auto should_create_composite = reinterpret_cast<const bool*>(payload_addr);
     if (*should_create_composite) {
       status = sysdev->MakeComposite();
       ZX_ASSERT(status == ZX_OK);
     }
   }

   // Now owned by devmgr.
   __UNUSED auto ptr = sysdev.release();

   return ZX_OK;
 }

 zx_status_t Sysdev::MakeComposite() {
   // Composite binding rules for the well-known composite that
   // libdriver-integration-test uses.
   const zx_bind_inst_t root_match[] = {
       BI_MATCH(),
   };
   const zx_bind_inst_t fragment1_match[] = {
       BI_ABORT_IF(NE, BIND_PLATFORM_DEV_VID, PDEV_VID_TEST),
       BI_ABORT_IF(NE, BIND_PLATFORM_DEV_PID, PDEV_PID_LIBDRIVER_TEST),
       BI_MATCH_IF(EQ, BIND_PLATFORM_DEV_DID, PDEV_DID_TEST_CHILD_1),
   };
   const zx_bind_inst_t fragment2_match[] = {
       BI_ABORT_IF(NE, BIND_PLATFORM_DEV_VID, PDEV_VID_TEST),
       BI_ABORT_IF(NE, BIND_PLATFORM_DEV_PID, PDEV_PID_LIBDRIVER_TEST),
       BI_MATCH_IF(EQ, BIND_PLATFORM_DEV_DID, PDEV_DID_TEST_CHILD_2),
   };
   const device_fragment_part_t fragment1[] = {
       {countof(root_match), root_match},
       {countof(fragment1_match), fragment1_match},
   };
   const device_fragment_part_t fragment2[] = {
       {countof(root_match), root_match},
       {countof(fragment2_match), fragment2_match},
   };
   const device_fragment_t fragments[] = {
       {"fragment-1", countof(fragment1), fragment1},
       {"fragment-2", countof(fragment2), fragment2},
   };

   const zx_device_prop_t props[] = {
       {BIND_PLATFORM_DEV_VID, 0, PDEV_VID_TEST},
       {BIND_PLATFORM_DEV_PID, 0, PDEV_PID_LIBDRIVER_TEST},
       {BIND_PLATFORM_DEV_DID, 0, PDEV_DID_TEST_COMPOSITE},
   };

   const composite_device_desc_t comp_desc = {
       .props = props,
       .props_count = countof(props),
       .fragments = fragments,
       .fragments_count = countof(fragments),
       .coresident_device_index = UINT32_MAX,
       .metadata_list = nullptr,
       .metadata_count = 0,
   };

   return device_add_composite(zxdev(), "composite", &comp_desc);
 }

 static constexpr zx_driver_ops_t driver_ops = []() {
   zx_driver_ops_t ops = {};
   ops.version = DRIVER_OPS_VERSION;
   ops.create = Sysdev::Create;
   return ops;
 }();

 }  // namespace

 ZIRCON_DRIVER(test_sysdev, driver_ops, "zircon", "0.1");
	// Copyright 2018 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 "src/devices/tests/sysdev/sysdev.h"

	#include <fuchsia/boot/c/fidl.h>
	#include <lib/zx/channel.h>
	#include <lib/zx/vmar.h>
	#include <lib/zx/vmo.h>
	#include <zircon/assert.h>
	#include <zircon/boot/image.h>
	#include <zircon/types.h>

	#include <memory>

	#include <ddk/device.h>
	#include <ddk/driver.h>
	#include <ddk/platform-defs.h>
	#include <ddktl/device.h>

	#include "src/devices/tests/sysdev/sysdev-bind.h"

	namespace {

	class Sysdev;
	using SysdevType = ddk::Device<Sysdev>;

	class Sysdev : public SysdevType {
	public:
	explicit Sysdev(zx_device_t* device) : SysdevType(device) {}

	static zx_status_t Create(void* ctx, zx_device_t* parent, const char* name, const char* args,
	zx_handle_t items_svc_handle);

	// Device protocol implementation.
	void DdkRelease() {
	// sysdev should never have its release called.
	ZX_ASSERT_MSG(false, "Sysdev::DdkRelease() invoked!\n");
	}

	zx_status_t MakeComposite();
	};

	zx_status_t Sysdev::Create(void* ctx, zx_device_t* parent, const char* name, const char* args,
	zx_handle_t items_svc_handle) {
	zx::channel items_svc(items_svc_handle);
	auto sysdev = std::make_unique<Sysdev>(parent);

	// Check if we were sent configuration data
	zx::vmo payload;
	uint32_t payload_len = 0;
	if (items_svc.is_valid()) {
	zx_status_t status = fuchsia_boot_ItemsGet(items_svc.get(), ZBI_TYPE_DRV_BOARD_PRIVATE, 0,
	payload.reset_and_get_address(), &payload_len);
	if (status != ZX_OK) {
	return status;
	}
	}

	uintptr_t payload_addr = 0;
	if (payload_len > 0) {
	zx_status_t status =
	zx::vmar::root_self()->map(ZX_VM_PERM_READ, 0, payload, 0, payload_len, &payload_addr);
	if (status != ZX_OK) {
	return status;
	}
	}
	payload.reset();

	zx_status_t status = sysdev->DdkAdd(ddk::DeviceAddArgs("sys").set_flags(DEVICE_ADD_NON_BINDABLE));
	if (status != ZX_OK) {
	return status;
	}

	// If we were sent configuration data, check to see if we were told to
	// create a composite. If so, we will create a composite out of
	// "well-known" devices that the test may create. These are children with
	// the PLATFORM_DEV properties
	// (PDEV_VID_TEST, PDEV_PID_LIBDRIVER_TEST, PDEV_DID_TEST_CHILD_1) and
	// (PDEV_VID_TEST, PDEV_PID_LIBDRIVER_TEST, PDEV_DID_TEST_CHILD_2).
	// The resulting composite will have PLATFORM_DEV properties
	// (PDEV_VID_TEST, PDEV_PID_LIBDRIVER_TEST, PDEV_DID_TEST_COMPOSITE).
	if (payload_len >= sizeof(bool)) {
	auto should_create_composite = reinterpret_cast<const bool*>(payload_addr);
	if (*should_create_composite) {
	status = sysdev->MakeComposite();
	ZX_ASSERT(status == ZX_OK);
	}
	}

	// Now owned by devmgr.
	__UNUSED auto ptr = sysdev.release();

	return ZX_OK;
	}

	zx_status_t Sysdev::MakeComposite() {
	// Composite binding rules for the well-known composite that
	// libdriver-integration-test uses.
	const zx_bind_inst_t root_match[] = {
	BI_MATCH(),
	};
	const zx_bind_inst_t fragment1_match[] = {
	BI_ABORT_IF(NE, BIND_PLATFORM_DEV_VID, PDEV_VID_TEST),
	BI_ABORT_IF(NE, BIND_PLATFORM_DEV_PID, PDEV_PID_LIBDRIVER_TEST),
	BI_MATCH_IF(EQ, BIND_PLATFORM_DEV_DID, PDEV_DID_TEST_CHILD_1),
	};
	const zx_bind_inst_t fragment2_match[] = {
	BI_ABORT_IF(NE, BIND_PLATFORM_DEV_VID, PDEV_VID_TEST),
	BI_ABORT_IF(NE, BIND_PLATFORM_DEV_PID, PDEV_PID_LIBDRIVER_TEST),
	BI_MATCH_IF(EQ, BIND_PLATFORM_DEV_DID, PDEV_DID_TEST_CHILD_2),
	};
	const device_fragment_part_t fragment1[] = {
	{countof(root_match), root_match},
	{countof(fragment1_match), fragment1_match},
	};
	const device_fragment_part_t fragment2[] = {
	{countof(root_match), root_match},
	{countof(fragment2_match), fragment2_match},
	};
	const device_fragment_t fragments[] = {
	{"fragment-1", countof(fragment1), fragment1},
	{"fragment-2", countof(fragment2), fragment2},
	};

	const zx_device_prop_t props[] = {
	{BIND_PLATFORM_DEV_VID, 0, PDEV_VID_TEST},
	{BIND_PLATFORM_DEV_PID, 0, PDEV_PID_LIBDRIVER_TEST},
	{BIND_PLATFORM_DEV_DID, 0, PDEV_DID_TEST_COMPOSITE},
	};

	const composite_device_desc_t comp_desc = {
	.props = props,
	.props_count = countof(props),
	.fragments = fragments,
	.fragments_count = countof(fragments),
	.coresident_device_index = UINT32_MAX,
	.metadata_list = nullptr,
	.metadata_count = 0,
	};

	return device_add_composite(zxdev(), "composite", &comp_desc);
	}

	static constexpr zx_driver_ops_t driver_ops = []() {
	zx_driver_ops_t ops = {};
	ops.version = DRIVER_OPS_VERSION;
	ops.create = Sysdev::Create;
	return ops;
	}();

	} // namespace

	ZIRCON_DRIVER(test_sysdev, driver_ops, "zircon", "0.1");