From ae68ff085724dd35d60151bd153e80b8b0776873 Mon Sep 17 00:00:00 2001 From: Joel Sherrill Date: Tue, 27 May 1997 12:40:11 +0000 Subject: Initial revision --- doc/supplements/i386/callconv.t | 119 ++++++++++++++++++++++++++++++++++++++++ 1 file changed, 119 insertions(+) create mode 100644 doc/supplements/i386/callconv.t (limited to 'doc/supplements/i386/callconv.t') diff --git a/doc/supplements/i386/callconv.t b/doc/supplements/i386/callconv.t new file mode 100644 index 0000000000..6d58ba2f7b --- /dev/null +++ b/doc/supplements/i386/callconv.t @@ -0,0 +1,119 @@ +@c +@c COPYRIGHT (c) 1988-1997. +@c On-Line Applications Research Corporation (OAR). +@c All rights reserved. +@c + +@ifinfo +@node Calling Conventions, Calling Conventions Introduction, CPU Model Dependent Features Floating Point Unit, Top +@end ifinfo +@chapter Calling Conventions +@ifinfo +@menu +* Calling Conventions Introduction:: +* Calling Conventions Processor Background:: +* Calling Conventions Calling Mechanism:: +* Calling Conventions Register Usage:: +* Calling Conventions Parameter Passing:: +* Calling Conventions User-Provided Routines:: +@end menu +@end ifinfo + +@ifinfo +@node Calling Conventions Introduction, Calling Conventions Processor Background, Calling Conventions, Calling Conventions +@end ifinfo +@section Introduction + +Each high-level language compiler generates +subroutine entry and exit code based upon a set of rules known +as the compiler's calling convention. These rules address the +following issues: + +@itemize @bullet +@item register preservation and usage + +@item parameter passing + +@item call and return mechanism +@end itemize + +A compiler's calling convention is of importance when +interfacing to subroutines written in another language either +assembly or high-level. Even when the high-level language and +target processor are the same, different compilers may use +different calling conventions. As a result, calling conventions +are both processor and compiler dependent. + +@ifinfo +@node Calling Conventions Processor Background, Calling Conventions Calling Mechanism, Calling Conventions Introduction, Calling Conventions +@end ifinfo +@section Processor Background + +The i386 architecture supports a simple yet effective +call and return mechanism. A subroutine is invoked via the call +(call) instruction. This instruction pushes the return address +on the stack. The return from subroutine (ret) instruction pops +the return address off the current stack and transfers control +to that instruction. It is is important to note that the i386 +call and return mechanism does not automatically save or restore +any registers. It is the responsibility of the high-level +language compiler to define the register preservation and usage +convention. + +@ifinfo +@node Calling Conventions Calling Mechanism, Calling Conventions Register Usage, Calling Conventions Processor Background, Calling Conventions +@end ifinfo +@section Calling Mechanism + +All RTEMS directives are invoked using a call +instruction and return to the user application via the ret +instruction. + +@ifinfo +@node Calling Conventions Register Usage, Calling Conventions Parameter Passing, Calling Conventions Calling Mechanism, Calling Conventions +@end ifinfo +@section Register Usage + +As discussed above, the call instruction does not +automatically save any registers. RTEMS uses the registers EAX, +ECX, and EDX as scratch registers. These registers are not +preserved by RTEMS directives therefore, the contents of these +registers should not be assumed upon return from any RTEMS +directive. + +@ifinfo +@node Calling Conventions Parameter Passing, Calling Conventions User-Provided Routines, Calling Conventions Register Usage, Calling Conventions +@end ifinfo +@section Parameter Passing + +RTEMS assumes that arguments are placed on the +current stack before the directive is invoked via the call +instruction. The first argument is assumed to be closest to the +return address on the stack. This means that the first argument +of the C calling sequence is pushed last. The following +pseudo-code illustrates the typical sequence used to call a +RTEMS directive with three (3) arguments: + +@example +push third argument +push second argument +push first argument +invoke directive +remove arguments from the stack +@end example + +The arguments to RTEMS are typically pushed onto the +stack using a push instruction. These arguments must be removed +from the stack after control is returned to the caller. This +removal is typically accomplished by adding the size of the +argument list in bytes to the stack pointer. + +@ifinfo +@node Calling Conventions User-Provided Routines, Memory Model, Calling Conventions Parameter Passing, Calling Conventions +@end ifinfo +@section User-Provided Routines + +All user-provided routines invoked by RTEMS, such as +user extensions, device drivers, and MPCI routines, must also +adhere to these calling conventions. + -- cgit v1.2.3