diff gsm-fw/bsp/clkm.c @ 143:afceeeb2cba1

Our nuc-fw is destined to become gsm-fw, so I went ahead and did the big hg mv
author Michael Spacefalcon <msokolov@ivan.Harhan.ORG>
date Tue, 12 Nov 2013 05:35:48 +0000
parents nuc-fw/bsp/clkm.c@5b7403f6ae93
children
line wrap: on
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--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/gsm-fw/bsp/clkm.c	Tue Nov 12 05:35:48 2013 +0000
@@ -0,0 +1,315 @@
+/******************************************************************************
+            TEXAS INSTRUMENTS INCORPORATED PROPRIETARY INFORMATION           
+                                                                             
+   Property of Texas Instruments -- For  Unrestricted  Internal  Use  Only 
+   Unauthorized reproduction and/or distribution is strictly prohibited.  This 
+   product  is  protected  under  copyright  law  and  trade  secret law as an 
+   unpublished work.  Created 1987, (C) Copyright 1997 Texas Instruments.  All 
+   rights reserved.                                                            
+                  
+                                                           
+   Filename       	: clkm.c
+
+   Description    	: Set of functions useful to test the Saturn
+			  CLKM peripheral 
+
+   Project        	: drivers
+
+   Author         	: pmonteil@tif.ti.com  Patrice Monteil.
+
+   Version number	: 1.11
+
+   Date and time	: 10/23/01 14:43:31
+
+   Previous delta 	: 10/23/01 14:43:31
+
+   SCCS file      	: /db/gsm_asp/db_ht96/dsp_0/gsw/rel_0/mcu_l1/release_gprs/mod/emu_p/EMU_P_FRED_CLOCK/drivers1/common/SCCS/s.clkm.c
+
+   Sccs Id  (SID)       : '@(#) clkm.c 1.11 10/23/01 14:43:31 '
+
+
+ 
+*****************************************************************************/
+
+           //############################################################
+           //############################################################
+           //### Be careful: this file must be placed in Flash Memory ###
+           //###     and compiled in 16 bits length intructions       ###
+           //###        (CF. the function wait_ARM_cycles()           ###
+           //############################################################
+           //############################################################
+           
+#include "../include/config.h"
+#include "../include/sys_types.h"
+
+#include "mem.h"
+#include "clkm.h"
+
+static SYS_UWORD32 ratio_wait_loop = 0;
+
+#if (CHIPSET == 12)
+  const double dsp_div_value[CLKM_NB_DSP_DIV_VALUE] = {1, 1.5, 2, 3};
+#endif
+
+#if ((CHIPSET == 4) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 10) || (CHIPSET == 11) || (CHIPSET == 12))
+  /*---------------------------------------------------------------/
+  /*  CLKM_InitARMClock()                                         */
+  /*--------------------------------------------------------------*/
+  /* Parameters :  clk_src : 0x00 means DPLL selected             */
+  /*                         0x01 means VTCX0 selected            */
+  /*                         0x03 means CLKIN selected            */
+  /*               clk_xp5 : Enable 1.5 or 2.5 division factor    */
+  /*                         (0 or 1)                             */
+  /*               clk_div : Division factor applied to clock     */
+  /*                         source                               */
+  /*             WARNING : reverse order in comparison to ULYSSE  */
+  /*                                                              */
+  /* Return     : none                                            */
+  /* Functionality :Initialize the ARM Clock frequency            */
+  /*--------------------------------------------------------------*/
+
+  void CLKM_InitARMClock(SYS_UWORD16 clk_src, SYS_UWORD16 clk_div, SYS_UWORD16 clk_xp5)
+  {
+    SYS_UWORD16 cntl = * (volatile SYS_UWORD16 *) CLKM_ARM_CLK;
+        
+    cntl &= ~(CLKM_CLKIN0 | CLKM_CLKIN_SEL | CLKM_ARM_MCLK_XP5 | CLKM_MCLK_DIV);
+    
+    cntl |= ((clk_src << 1) | (clk_xp5 << 3) | (clk_div << 4));
+    
+    * (volatile SYS_UWORD16 *) CLKM_ARM_CLK = cntl;
+  }
+#else
+  /*---------------------------------------------------------------/
+  /*  CLKM_InitARMClock()						*/
+  /*--------------------------------------------------------------*/
+  /* Parameters :  clk_src : 0x00 means CLKIN selected		*/
+  /*	  	  	   0x01 means 32 K selected		*/
+  /*	 	  	   0x02 means External clock selected	*/
+  /*								*/
+  /* Return     :	none						*/
+  /* Functionality :Initialize the ARM Clock frequency 		*/
+  /*--------------------------------------------------------------*/
+
+  void CLKM_InitARMClock(SYS_UWORD16 clk_src, SYS_UWORD16 clk_div)
+  {
+    SYS_UWORD16 cntl = * (volatile SYS_UWORD16 *) CLKM_ARM_CLK;
+
+    cntl &= ~(CLKM_LOW_FRQ | CLKM_CLKIN_SEL | CLKM_MCLK_DIV);
+
+    cntl |= ((clk_src << 1) | (clk_div << 4));
+
+    * (volatile SYS_UWORD16 *) CLKM_ARM_CLK = cntl;
+  }
+
+#endif
+
+
+/*-------------------------------------------------------*/ 
+/* convert_nanosec_to_cycles()                           */
+/*-------------------------------------------------------*/
+/* parameter: time in 10E-9 seconds                      */
+/* return: Number of cycles for the wait_ARM_cycles()    */
+/*         function                                      */
+/*                                                       */
+/* Description:                                          */
+/* ------------                                          */
+/* convert x nanoseconds in y cycles used by the ASM loop*/
+/* function . Before calling this function, call the     */ 
+/* initialize_wait_loop() function                       */
+/* Called when the HardWare needs time to wait           */
+/*-------------------------------------------------------*/ 
+SYS_UWORD32 convert_nanosec_to_cycles(SYS_UWORD32 time)
+{ 
+  return( time / ratio_wait_loop);  
+}
+
+
+/*-------------------------------------------------------*/
+/* initialize_wait_loop()                                */
+/*-------------------------------------------------------*/
+/*                                                       */
+/* Description:                                          */
+/* ------------                                          */
+/* Init the ratio used to convert time->Cycles according */
+/* to hardware parameters                                */
+/* measurement time for this function (ARM 39Mhz, 3 waits*/
+/* states) = 75 micoseconds                              */
+/*-------------------------------------------------------*/
+
+void initialize_wait_loop(void)
+{
+  #define NBR_CYCLES_IN_LOOP   5   // this value is got from an oscilloscope measurement
+  
+  double src_ratio;
+  double final_ratio;
+
+  SYS_UWORD16 flash_access_size;
+  SYS_UWORD16 flash_wait_state;
+  SYS_UWORD32 nbr;
+  SYS_UWORD32 arm_clock;
+
+  //////////////////////////////////
+  //  compute the ARM clock used  //
+  //////////////////////////////////
+  {
+    SYS_UWORD16 arm_mclk_xp5;
+    SYS_UWORD16 arm_ratio;
+    SYS_UWORD16 clk_src;
+    SYS_UWORD16 clkm_cntl_arm_clk_reg = * (volatile SYS_UWORD16 *) CLKM_CNTL_ARM_CLK;
+
+    #if ((CHIPSET == 4) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 10) || (CHIPSET == 11) || (CHIPSET == 12))
+      clk_src  = (clkm_cntl_arm_clk_reg & MASK_CLKIN) >> 1;
+      switch (clk_src)
+      {
+        case 0x00: //DPLL selected 
+          // select the DPLL factor
+          if (((* (volatile SYS_UWORD16 *) MEM_DPLL_ADDR) & DPLL_LOCK) != 0)
+          {
+             SYS_UWORD16 dpll_div;
+             SYS_UWORD16 dpll_mul;
+
+             dpll_div=DPLL_READ_DPLL_DIV;
+             dpll_mul=DPLL_READ_DPLL_MUL;
+             src_ratio = (double)(dpll_mul)/(double)(dpll_div+1);              
+          }
+          else // DPLL in bypass mode
+          {
+             SYS_UWORD16 dpll_div = DPLL_BYPASS_DIV;
+             src_ratio= (double)(1)/(double)(dpll_div+1);
+          }
+          break;
+        case 0x01: //VTCX0 selected 
+          src_ratio = 1;
+          break;
+        case 0x03: //CLKIN selected   (external clock)
+          src_ratio = 1;
+          break;
+      }
+      // define the division factor applied to clock source (CLKIN or VTCXO or DPLL)
+      arm_ratio = (clkm_cntl_arm_clk_reg & CLKM_MCLK_DIV) >> 4;
+
+      // check if the 1.5 or 2.5 division factor is enabled
+      arm_mclk_xp5  = clkm_cntl_arm_clk_reg & CLKM_ARM_MCLK_XP5;
+
+      if (arm_mclk_xp5 == 0) // division factor enable for ARM clock ?
+      {
+        if (arm_ratio == 0) 
+          arm_ratio =1; 
+      }
+      else
+        arm_ratio = ((arm_ratio>>1) & 0x0001) == 0 ? 1.5 : 2.5;
+
+
+    #else // CHIPSET
+      src_ratio = 1;
+
+      // define the division factor applied to clock source (CLKIN or VTCXO or DPLL)
+      arm_ratio = (clkm_cntl_arm_clk_reg & CLKM_MCLK_DIV) >> 4;
+
+      // check if the 1.5 or 2.5 division factor is enabled
+      arm_mclk_xp5  = clkm_cntl_arm_clk_reg & MASK_ARM_MCLK_1P5;
+
+      if (arm_mclk_xp5 == 1) // division factor enable for ARM clock ?
+        arm_ratio = 1.5;  
+      else
+      {
+        if (arm_ratio == 0)
+          arm_ratio = 4;
+        else 
+          if (arm_ratio == 1 )
+            arm_ratio = 2;
+          else 
+            arm_ratio = 1;
+      }
+
+    #endif // CHIPSET
+
+   final_ratio = (src_ratio / (double) arm_ratio);
+
+  }
+  //////////////////////////////////////////
+  //  compute the Flash wait states used  //
+  //////////////////////////////////////////
+
+  #if (CHIPSET == 12)
+    flash_access_size  =  *((volatile SYS_UWORD16 *) MEM_REG_nCS5);
+  #else
+    flash_access_size  =  *((volatile SYS_UWORD16 *) MEM_REG_nCS0);
+  #endif
+  flash_access_size  = (flash_access_size >> 5) & 0x0003; // 0=>8bits, 1=>16 bits, 2 =>32 bits
+
+  // the loop file is compiled in 16 bits it means
+  //    flash 8  bits => 2 loads for 1 16 bits assembler instruction
+  //    flash 16 bits => 1 loads for 1 16 bits assembler instruction
+  //    flash 32 bits => 1 loads for 1 16 bits assembler instruction (ARM bus 16 bits !!)
+  
+  // !!!!!!!!! be careful: if this file is compile in 32 bits, change these 2 lines here after !!!
+  if (flash_access_size == 0) flash_access_size = 2;
+  else                        flash_access_size = 1;
+
+  #if (CHIPSET == 12)
+    /*
+     *  WARNING - New ARM Memory Interface features are not supported here below (Page Mode, extended WS, Dummy Cycle,...).
+     */
+    flash_wait_state  =  *((volatile SYS_UWORD16 *) MEM_REG_nCS5);
+  #else
+    flash_wait_state  =  *((volatile SYS_UWORD16 *) MEM_REG_nCS0);
+  #endif
+  flash_wait_state &=  0x001F;
+
+  //////////////////////////////////////
+  //  compute the length of the loop  //
+  //////////////////////////////////////
+
+  // Number of flash cycles for the assembler loop
+  nbr = NBR_CYCLES_IN_LOOP;
+
+  // Number of ARM cycles for the assembler loop
+  nbr = nbr * (flash_wait_state + 1) * (flash_access_size);
+
+  // time for the assembler loop (unit nanoseconds: 10E-9)
+  arm_clock = final_ratio * 13; // ARM clock in Mhz 
+  ratio_wait_loop = (SYS_UWORD32)((nbr*1000) / arm_clock);
+}
+
+
+/*-------------------------------------------------------*/ 
+/* wait_ARM_cycles()                                     */
+/*-------------------------------------------------------*/
+/*                                                       */
+/* Description:                                          */
+/* ------------                                          */
+/* Called when the HardWare needs time to wait.          */
+/* this function wait x cycles and is used with the      */
+/* convert_nanosec_to_cycles() & initialize_wait_loop()  */
+/*                                                       */
+/*  Exemple:  wait 10 micro seconds:                     */
+/*  initialize_wait_loop();                              */
+/*  wait_ARM_cycles(convert_nanosec_to_cycles(10000))    */
+/*                                                       */
+/*  minimum time value with cpt_loop = 0  (estimated)    */
+/*  and C-SAMPLE / flash 6,5Mhz  ~  1,5 micro seconds    */
+/*                                                       */
+/*                                                       */
+/* Be careful : in order to respect the rule about the   */
+/* conversion "time => number of cylcles in this loop"   */
+/* (Cf the functions: convert_nanosec_to_cycles() and    */
+/* initialize_wait_loop() ) respect the following rules: */
+/* This function must be placed in Flash Memory and      */
+/* compiled in 16 bits instructions length               */
+/*-------------------------------------------------------*/
+void wait_ARM_cycles(SYS_UWORD32 cpt_loop) 
+{
+  // C code:
+  // while (cpt_loop -- != 0);
+
+  asm(" CMP       A1, #0");                 
+  asm(" BEQ       END_FUNCTION");           
+
+  asm("LOOP_LINE:        ");                
+  asm(" SUB       A1, A1, #1");
+  asm(" CMP       A1, #0");
+  asm(" BNE       LOOP_LINE");
+
+  asm("END_FUNCTION:        ");  
+}