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view src/gpf2/osl/os_pro_ir.c @ 624:012028896cfb

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FFS dev.c, Leonardo target: Fujitsu MB84VF5F5F4J2 #if 0'ed out The FFS code we got from TI/Openmoko had a stanza for "Fujitsu MB84VF5F5F4J2 stacked device", using a fake device ID code that would need to be patched manually into cfgffs.c (suppressing and overriding autodetection) and using an FFS base address in the nCS2 bank, indicating that this FFS config was probably meant for the MCP version of Leonardo which allows for 16 MiB flash with a second bank on nCS2. We previously had this FFS config stanza conditionalized under CONFIG_TARGET_LEONARDO because the base address contained therein is invalid for other targets, but now that we actually have a Leonardo build target in FC Magnetite, I realize that the better approach is to #if 0 out this stanza altogether: it is already non-functional because it uses a fake device ID code, thus it is does not add support for more Leonardo board variants, instead it is just noise.
author Mychaela Falconia <falcon@freecalypso.org>
date Sun, 22 Dec 2019 21:24:29 +0000
parents dfa8771e84b1
children
line wrap: on
line source

/*
 * This C module is a reconstruction based on the disassembly of
 * os_pro.obj in frame_na7_db_ir.lib from the Leonardo package.
 */

/* set of included headers from COFF symtab: */
#include <stdio.h>
#include <string.h>
#include "nucleus.h"
#include "typedefs.h"
#include "os.h"
#include "gdi.h"
#include "os_types.h"
#include "os_glob.h"

extern VOID *TCD_Current_Thread;
extern T_OS_TASK_TABLE_ENTRY TaskTable[];
extern unsigned os_time_to_tick_multiplier;

#define	OS_NU_TASK_MAGIC	0xdeafbeef

VOID
os_TaskEntry(UNSIGNED TaskHandle, VOID *argv)
{
	TaskTable[TaskHandle].TaskEntry(TaskHandle, 0);
}

GLOBAL LONG
os_SuspendTask(OS_HANDLE Caller, ULONG Time)
{
	UNSIGNED SuspendTicks;

	SuspendTicks = TIME_TO_SYSTEM_TICKS(Time);
	if (!SuspendTicks)
		SuspendTicks = 1;
	NU_Sleep(SuspendTicks);
	return (OS_OK);
}

GLOBAL LONG
os_ResumeTask(OS_HANDLE task_handle)
{
	if (NU_Resume_Task(&TaskTable[task_handle].TaskCB.TCB) == NU_SUCCESS)
		return(OS_OK);
	else
		return(OS_ERROR);
}

GLOBAL LONG
os_Relinquish(void)
{
	NU_Relinquish();
	return(OS_OK);
}

GLOBAL OS_HANDLE
os_MyHandle(void)
{
	OS_NU_TASK *os_nu_task = (OS_NU_TASK *) TCD_Current_Thread;

	if (os_nu_task && os_nu_task->magic_nr == OS_NU_TASK_MAGIC)
		return(os_nu_task->handle);
	else
		return(OS_NOTASK);
}

GLOBAL LONG
os_GetTaskName(OS_HANDLE Caller, OS_HANDLE TaskHandle, char *Name)
{
	if (TaskHandle) {
		if (TaskHandle > MaxTasks || !TaskTable[TaskHandle].Name[0])
			return(OS_ERROR);
		strcpy(Name, TaskTable[TaskHandle].Name);
	} else if (TCD_Current_Thread) {
		NU_TASK *curtask = TCD_Current_Thread;
		strcpy(Name, curtask->tc_name);
	} else
		strcpy(Name, "ROOT");
	return(OS_OK);
}

GLOBAL LONG
os_DeferTask(OS_HANDLE task_handle, OS_TIME time)
{
	if (NU_Suspend_Task(&TaskTable[task_handle].TaskCB.TCB) == NU_SUCCESS)
		return(OS_OK);
	else
		return(OS_ERROR);
}

GLOBAL LONG
os_CheckTaskStack(OS_HANDLE Handle)
{
#ifdef __GNUC__
	register void *sp asm("sp");
#endif

	if (*TaskTable[Handle].Stack != GUARD_PATTERN)
		return(OS_ERROR);
#ifdef __GNUC__
	if (TCD_Current_Thread) {
		NU_TASK *curtask = TCD_Current_Thread;
		if (sp < curtask->tc_stack_start)
			return(OS_ERROR);
	}
#endif
	return(OS_OK);
}