Writing Device Drivers
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Document Information

Preface

Part I Designing Device Drivers for the Solaris Platform

1.  Overview of Solaris Device Drivers

2.  Solaris Kernel and Device Tree

3.  Multithreading

4.  Properties

5.  Managing Events and Queueing Tasks

6.  Driver Autoconfiguration

7.  Device Access: Programmed I/O

8.  Interrupt Handlers

9.  Direct Memory Access (DMA)

10.  Mapping Device and Kernel Memory

11.  Device Context Management

12.  Power Management

13.  Hardening Solaris Drivers

14.  Layered Driver Interface (LDI)

Part II Designing Specific Kinds of Device Drivers

15.  Drivers for Character Devices

16.  Drivers for Block Devices

17.  SCSI Target Drivers

18.  SCSI Host Bus Adapter Drivers

19.  Drivers for Network Devices

20.  USB Drivers

Part III Building a Device Driver

21.  Compiling, Loading, Packaging, and Testing Drivers

22.  Debugging, Testing, and Tuning Device Drivers

23.  Recommended Coding Practices

Part IV Appendixes

A.  Hardware Overview

B.  Summary of Solaris DDI/DKI Services

C.  Making a Device Driver 64-Bit Ready

Introduction to 64-Bit Driver Design

General Conversion Steps

Well Known ioctl Interfaces

D.  Console Frame Buffer Drivers

Index

Introduction to 64-Bit Driver Design

For drivers that only need support for the 32-bit kernel, existing 32-bit device drivers will continue to work without recompilation. However, most device drivers require some changes to run correctly in the 64-bit kernel, and all device drivers require recompilation to create a 64-bit driver module. The information in this appendix will help you to enable drivers for 32-bit and 64-bit environments to be generated from common source code, thus increasing code portability and reducing the maintenance effort.

Before starting to modify a device driver for the 64-bit environment, you should understand how the 32-bit environment differs from the 64-bit environment. In particular, you must be familiar with the C language data type models ILP32 and LP64. See the following table.

Table C-1 Comparison of ILP32 and LP64 Data Types

C Type

ILP32

LP64

char

8

8

short

16

16

int

32

32

long

32

64

long long

64

64

float

32

32

double

64

64

long double

96

128

pointer

32

64

The driver-specific issues due to the differences between ILP32 and LP64 are the subject of this appendix. More general topics are covered in the Solaris 64-bit Developer’s Guide.

In addition to general code cleanup to support the data model changes for LP64, driver writers have to provide support for both 32-bit and 64-bit applications.

The ioctl(9E), devmap(9E), and mmap(9E) entry points enable data structures to be shared directly between applications and device drivers. If those data structures change size between the 32-bit and 64-bit environments, then the entry points must be modified so that the driver can determine whether the data model of the application is the same as that of the kernel. When the data models differ, data structures can be adjusted. See I/O Control Support for 64-Bit Capable Device Drivers, 32-bit and 64-bit Data Structure Macros, and Associating Kernel Memory With User Mappings.

In many drivers, only a few ioctls need this kind of handling. The other ioctls should work without change as long as these ioctls pass data structures that do not change in size.
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