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view src/gpf2/osl/os_pro_fl.c @ 636:57e67ca2e1cb

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pcmdata.c: default +CGMI to "FreeCalypso" and +CGMM to model The present change has no effect whatsoever on Falconia-made and Openmoko-made devices on which /pcm/CGMI and /pcm/CGMM files have been programmed in FFS with sensible ID strings by the respective factories, but what should AT+CGMI and AT+CGMM queries return when the device is a Huawei GTM900 or Tango modem that has been converted to FreeCalypso with a firmware change? Before the present change they would return compiled-in defaults of "<manufacturer>" and "<model>", respectively; with the present change the firmware will self-identify as "FreeCalypso GTM900-FC" or "FreeCalypso Tango" on the two respective targets. This firmware identification will become important if someone incorporates an FC-converted GTM900 or Tango modem into a ZeroPhone-style smartphone where some high-level software like ofono will be talking to the modem and will need to properly identify this modem as FreeCalypso, as opposed to some other AT command modem flavor with different quirks. In technical terms, the compiled-in default for the AT+CGMI query (which will always be overridden by the /pcm/CGMI file in FFS if one is present) is now "FreeCalypso" in all configs on all targets; the compiled-in default for the AT+CGMM query (likewise always overridden by /pcm/CGMM if present) is "GTM900-FC" if CONFIG_TARGET_GTM900 or "Tango" if CONFIG_TARGET_TANGO or the original default of "<model>" otherwise.
author Mychaela Falconia <falcon@freecalypso.org>
date Sun, 19 Jan 2020 20:14:58 +0000
parents bc12e6de8a07
children
line wrap: on
line source

/*
 * This C module is a reconstruction based on the disassembly of
 * os_pro.obj in frame_na7_db_fl.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"

typedef unsigned char u_char;

extern VOID *TCD_Current_Thread;
extern T_OS_TASK_TABLE_ENTRY TaskTable[];
extern VOID os_TaskEntry(UNSIGNED, VOID *);

static NU_SEMAPHORE ProSemCB;

#define	OS_NU_TASK_MAGIC	0xdeafbeef

static int
os_GetTaskEntry(USHORT Index, OS_HANDLE *Handle)
{
	static USHORT Idx;

	if (Index == FIRST_ENTRY)
		Idx = 0;
	if (Index == FIRST_ENTRY || Index == NEXT_ENTRY) {
		while (++Idx <= MaxTasks && !TaskTable[Idx].Name[0])
			;
	} else
		Idx = Index;
	if (Idx <= MaxTasks && TaskTable[Idx].Name[0]) {
		*Handle = Idx;
		return(0);
	} else
		return(-1);
}

GLOBAL LONG
os_TaskInformation(USHORT Index, char *Buffer)
{
	DATA_ELEMENT TaskStatus;
	OPTION Prio, Preempt;
	UNSIGNED Count, TimeSlice, Size, MinStack;
	OS_HANDLE Handle;
	CHAR Name[NU_MAX_NAME];
	u_char *StackBase, *sp;
	USHORT Untouched;

	if (os_GetTaskEntry(Index, &Handle) < 0)
		return(OS_ERROR);
	if (NU_Task_Information(&TaskTable[Handle].TaskCB.TCB, Name,
				&TaskStatus, &Count, &Prio, &Preempt,
				&TimeSlice, (VOID **) &StackBase,
				&Size, &MinStack) != NU_SUCCESS)
		return(OS_ERROR);
	Untouched = 0;
	for (sp = StackBase; sp < StackBase + Size; sp++) {
		if (*sp != INITIAL_STACK_VALUE)
			break;
		Untouched++;
	}
	sprintf(Buffer,
	"Name:%s Stat:%d Count:%ld Prio:%d Stack:%lx Size:%ld Untouched:%d",
		Name, TaskStatus, Count, 255 - Prio, (ULONG) StackBase,
		(LONG) Size, Untouched);
	return(OS_OK);
}

GLOBAL LONG
os_StopTask(OS_HANDLE Caller, OS_HANDLE TaskHandle)
{
	if (NU_Suspend_Task(&TaskTable[TaskHandle].TaskCB.TCB) == NU_SUCCESS)
		return(OS_OK);
	else
		return(OS_ERROR);
}

GLOBAL LONG
os_StartTask(OS_HANDLE Caller, OS_HANDLE TaskHandle, ULONG Value)
{
	if (NU_Resume_Task(&TaskTable[TaskHandle].TaskCB.TCB) == NU_SUCCESS)
		return(OS_OK);
	else
		return(OS_ERROR);
}

GLOBAL LONG
os_ProInit(void)
{
	USHORT i;

	if (NU_Create_Semaphore(&ProSemCB, "PROSEM", 1, NU_PRIORITY)
			!= NU_SUCCESS)
		return(OS_ERROR);
	for (i = 1; i <= MaxTasks; i++)
		memset(&TaskTable[i], 0, sizeof(T_OS_TASK_TABLE_ENTRY));
	return(OS_OK);
}

GLOBAL unsigned char
os_GetTaskState(OS_HANDLE Caller, OS_HANDLE Handle)
{
	if (TaskTable[Handle].Name[0])
		return(TaskTable[Handle].TaskCB.TCB.tc_status);
	else
		return(255);
}

GLOBAL LONG
os_GetTaskHandle(OS_HANDLE Caller, char *Name, OS_HANDLE *TaskHandle)
{
	USHORT i;

	if (!Name) {
		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)
			*TaskHandle = os_nu_task->handle;
		else
			*TaskHandle = OS_NOTASK;
		return(OS_OK);
	}
	for (i = 1; i <= MaxTasks; i++)
		if (TaskTable[i].Name[0] &&
		    !strncmp(Name, TaskTable[i].Name, RESOURCE_NAMELEN - 1)) {
			*TaskHandle = i;
			return(OS_OK);
		}
	return(OS_ERROR);
}

GLOBAL LONG
os_GetTaskData(OS_HANDLE Handle, unsigned **tcb,
		u_char **stackbegin, u_char **stackend)
{
	NU_TASK *task;

	if (!TaskTable[Handle].Name[0])
		return(OS_ERROR);
	task = &TaskTable[Handle].TaskCB.TCB;
	*tcb = (unsigned *) task;
	*stackbegin = (u_char *) task->tc_stack_start;
	*stackend = (u_char *) task->tc_stack_end;
	return(OS_OK);
}

GLOBAL LONG
os_GetScheduleCount(OS_HANDLE task_handle, int *schedule_count)
{
	NU_TASK *task_cb;

	if (task_handle > MaxTasks)
		return(OS_ERROR);
	if (!TaskTable[task_handle].Name[0])
		return(OS_ERROR);
	if (task_handle == OS_NOTASK)
		task_cb = (NU_TASK *) TCD_Current_Thread;
	else
		task_cb = &TaskTable[task_handle].TaskCB.TCB;
	*schedule_count = task_cb->tc_scheduled;
	return(OS_OK);
}

GLOBAL LONG
os_DestroyTask(OS_HANDLE Caller, OS_HANDLE TaskHandle)
{
	STATUS sts;

	if (NU_Terminate_Task(&TaskTable[TaskHandle].TaskCB.TCB) != NU_SUCCESS)
		return(OS_ERROR);
	if (NU_Delete_Task(&TaskTable[TaskHandle].TaskCB.TCB) != NU_SUCCESS)
		return(OS_ERROR);
	if (os_DeallocateMemory(Caller, TaskTable[TaskHandle].Stack) != OS_OK)
		return(OS_ERROR);
	sts = NU_Obtain_Semaphore(&ProSemCB, NU_SUSPEND);
	TaskTable[TaskHandle].Name[0] = 0;
	if (sts == NU_SUCCESS)
		NU_Release_Semaphore(&ProSemCB);
	return(OS_OK);
}

GLOBAL LONG
os_CreateTask(OS_HANDLE Caller, char *Name,
		void (*TaskEntry)(OS_HANDLE, ULONG), ULONG StackSize,
		USHORT Priority, OS_HANDLE *TaskHandle, OS_HANDLE MemPoolHandle)
{
	STATUS sem_sts;
	USHORT Handle;
	u_char *stack;

	sem_sts = NU_Obtain_Semaphore(&ProSemCB, NU_SUSPEND);
	for (Handle = 1; Handle <= MaxTasks; Handle++)
		if (!TaskTable[Handle].Name[0])
			break;
	if (Handle > MaxTasks) {
return_error:	if (sem_sts == NU_SUCCESS)
			NU_Release_Semaphore(&ProSemCB);
		return(OS_ERROR);
	}
	if (os_AllocateMemory(Handle, &TaskTable[Handle].Stack, StackSize + 4,
				0, MemPoolHandle) != OS_OK)
		goto return_error;
	stack = (u_char *)TaskTable[Handle].Stack + 4;
	memset(stack, INITIAL_STACK_VALUE, StackSize);
	*TaskTable[Handle].Stack = GUARD_PATTERN;
	if (NU_Create_Task(&TaskTable[Handle].TaskCB.TCB, Name, os_TaskEntry,
				Handle, 0, stack, StackSize,
				255 - Priority, 0, NU_PREEMPT, NU_NO_START)
			!= NU_SUCCESS)
		goto return_error;
	strncpy(TaskTable[Handle].Name, Name, RESOURCE_NAMELEN);
	TaskTable[Handle].Name[RESOURCE_NAMELEN-1] = 0;
	TaskTable[Handle].TaskEntry = TaskEntry;
	TaskTable[Handle].TaskCB.magic_nr = OS_NU_TASK_MAGIC;
	TaskTable[Handle].TaskCB.handle = Handle;
	*TaskHandle = Handle;
	if (sem_sts == NU_SUCCESS)
		NU_Release_Semaphore(&ProSemCB);
	return(OS_OK);
}

GLOBAL LONG
os_ChangePreemption(char preempt)
{
	if (NU_Change_Preemption(preempt) == NU_SUCCESS)
		return(OS_OK);
	else
		return(OS_ERROR);
}