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view gsm-fw/L1/dsp/leadapi.c @ 650:a432bcc79039
gsm-fw/ccd: Makefile created, all core library modules compile!
author | Michael Spacefalcon <msokolov@ivan.Harhan.ORG> |
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date | Sun, 21 Sep 2014 00:59:02 +0000 |
parents | 25a3095e8a98 |
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/******************************************************************************** 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 This product is protected under copyright law and trade secret law as an unpublished work.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 : leadapi.c Description : Boot the LEAD through the API Target : Arm Project : Author : A0917556 Version number : 1.7 Date and time : 01/30/01 10:22:25 Previous delta : 12/19/00 14:27:48 SCCS file : /db/gsm_asp/db_ht96/dsp_0/gsw/rel_0/mcu_l1/release_gprs/RELEASE_GPRS/drivers1/common/SCCS/s.leadapi.c Sccs Id (SID) : '@(#) leadapi.c 1.7 01/30/01 10:22:25 ' *****************************************************************************/ #define LEADAPI_C 1 #include "../../include/config.h" #include "../../include/sys_types.h" #include "../../bsp/mem.h" #include "../../bsp/clkm.h" #include "leadapi.h" void LA_ResetLead(void) { (*(SYS_UWORD16 *) CLKM_CNTL_RST) |= CLKM_LEAD_RST; } /* * LA_StartLead * * Parameter : pll is the value to set in the PLL register */ void LA_StartLead(SYS_UWORD16 pll) { volatile int j; #if ((CHIPSET == 2) || (CHIPSET == 3) || (CHIPSET == 5) || (CHIPSET == 6) || (CHIPSET == 9)) // Set PLL (*(SYS_UWORD16 *) CLKM_LEAD_PLL_CNTL) = pll; // Wait 100 microseconds for PLL to start wait_ARM_cycles(convert_nanosec_to_cycles(100000)); #endif (*(SYS_UWORD16 *) CLKM_CNTL_RST) &= ~CLKM_LEAD_RST; } /* * LA_InitialLeadBoot16 * * For RAM-based LEAD * * Copy all sections to API * Dedicated with coff2c with 16-bit size and address (used with coff version 1 until DSP v1110) */ void LA_InitialLeadBoot16(const unsigned char bootCode[]) { int i; SYS_UWORD16 *origin; SYS_UWORD16 *destination; SYS_UWORD16 *currentSection; (*(SYS_UWORD16 *) CLKM_CNTL_RST) |= CLKM_LEAD_RST; // Reset Lead currentSection = (SYS_UWORD16*) bootCode; while (*currentSection != 0) // *currentSection is "size" { origin = currentSection + 2; // origin points on 1st word of current section destination = (SYS_UWORD16 *) (BASE_API_ARM + ((*(currentSection+1) - BASE_API_LEAD) * 2)); // destination is "addr" in API // (*(currentSection+1) is "size" of current section for (i=0 ; i< *currentSection ; i++) { *destination = *origin++; destination = destination + 1; // destination is UNSIGNED16 } currentSection = origin; } } /* * LA_InitialLeadBoot * * For RAM-based LEAD * * Copy all sections to API * Dedicated with coff2c with 32-bit size and address (perl or v3 version used with coff version 2 from v1500) * */ void LA_InitialLeadBoot(const unsigned char bootCode[]) { int i; short error = NULL; SYS_UWORD16 size, size_ext; // dsp_addr[0:15] and dsp_addr[16:31] of the current section as specified in bootCode[] array SYS_UWORD16 dsp_address, dsp_ext_address; // size[0:15] and size[16:31] of the current section as specified in bootCode[] array SYS_UWORD16 *bootCodePtr, *destinationPtr; // pointer in bootCode[] array and pointer in the API (MCU addresses) (*(SYS_UWORD16 *) CLKM_CNTL_RST) |= CLKM_LEAD_RST; // reset Lead bootCodePtr = (SYS_UWORD16 *) bootCode; // initialisation of bootCodePtr on the first word of the C array if ( (NULL == *bootCodePtr++) && (NULL == *bootCodePtr++) ) { // NULL TAG detection if ( ( 3 == *bootCodePtr++) && (NULL == *bootCodePtr++) ) { // coff2c version number detection // initialization for the first section size = *bootCodePtr++; size_ext = *bootCodePtr++; dsp_address = *bootCodePtr++; dsp_ext_address = *bootCodePtr++; while (size != NULL) { // loop until last section whose size is null if ( (NULL == size_ext) && (NULL == dsp_ext_address) ) {// size and address must 16-bit values in LA_InitialLeadBoot() destinationPtr = (SYS_UWORD16 *) (BASE_API_ARM + (dsp_address - BASE_API_LEAD) * 2); // destination in API from the MCU side for (i=0 ; i<size ; i++) { *destinationPtr++ = *bootCodePtr++; } // next section size = *bootCodePtr++; size_ext = *bootCodePtr++; dsp_address = *bootCodePtr++; dsp_ext_address = *bootCodePtr++; } else { error = LA_BAD_EXT_VALUE; size = NULL; } } } else { error = LA_BAD_VERSION; } } else { error = LA_BAD_TAG; } if (error != NULL) { // if an error was detected in the coff2c format, LA_InitialLeadBoot16(bootCode); // try to download a coff-v1.0 coff2c output } } /* * LA_LoadPage * * Final LEAD boot - needs to communicate with initial LEAD Boot program * * Copy all sections to API * * Parameters : pointer to code, LEAD page, flag to start executing * Return value : 0 for success, 1 for timeout */ short LA_LoadPage(const unsigned char code[], SYS_UWORD16 page, SYS_UWORD16 start) { int t; // time counter for synchronization SYS_UWORD16 stat; // status parameter for synchronization int i = NULL; short error = NULL; SYS_UWORD16 current_block_size; // size of the current block to be copied into API int remaining_size32; // remaining size of the current section to be copied after the last block int remaining_size_DSPpage32; // size remaining in the current DSP page int max_block_size; //biggest block size used during the patch download SYS_UWORD16 size, size_ext; // size[0:15] and size[16:31] of the current section as specified in code[] array SYS_UWORD16 dsp_address, dsp_ext_address; // dsp_addr[0:15] and dsp_addr[16:31] of the current section as specified in code[] array SYS_UWORD16 *codePtr, *destinationPtr; // pointer in code[] array and pointer in the API (MCU addresses) codePtr = (SYS_UWORD16 *) code; // initialisation of codePtr on the first word of the C array max_block_size = 0; if ( (NULL == *codePtr++) && (NULL == *codePtr++)) { // NULL TAG detection if ( (3 == *codePtr++) && (NULL == *codePtr++)) { // coff2c version number detection // Set the data page //------------------- // Wait until LEAD is ready t = 0; do { stat = *((volatile SYS_UWORD16 *) DOWNLOAD_STATUS); t++; if (t > LA_TIMEOUT) return(LA_ERR_TIMEOUT); } while (stat != LEAD_READY); destinationPtr = (SYS_UWORD16 *) BASE_API_ARM; *destinationPtr = page; *(volatile SYS_UWORD16 *) DOWNLOAD_STATUS = PAGE_SELECTION; // Code/Data download block by block //----------------------------------- do { // SECTION BY SECTION COPY size = *codePtr++; size_ext = *codePtr++; dsp_address = *codePtr++; dsp_ext_address = *codePtr++; remaining_size32 = (size_ext << 16) + size; // reconstruction of the total 32-bit size of the section while (remaining_size32) { // BLOCK BY BLOCK COPY // Wait until LEAD is ready t = 0; do { stat = *((volatile SYS_UWORD16 *) DOWNLOAD_STATUS); t++; if (t > LA_TIMEOUT) return(LA_ERR_TIMEOUT); } while (stat != LEAD_READY); // DSP address managment including the extended page remaining_size_DSPpage32 = MAX_UINT - dsp_address +1; // calculate the max available size in the current DSP page (MAX_UINT=65535) if (NULL == remaining_size_DSPpage32) { dsp_address = 0; // continue on the next DSP page dsp_ext_address += 1; } // partitionning of the current section into blocks if (remaining_size32 >= MAX_BLOCK_SIZE) { if (MAX_BLOCK_SIZE <= remaining_size_DSPpage32) current_block_size = MAX_BLOCK_SIZE; // block by block partitioning else current_block_size = remaining_size_DSPpage32; } else { if(remaining_size32 <= remaining_size_DSPpage32) current_block_size = remaining_size32; // the end of the section fits and is copied else current_block_size = remaining_size_DSPpage32; } if ( current_block_size > max_block_size ) { max_block_size = current_block_size; } // set parameters in the share memory *(volatile SYS_UWORD16 *) DOWNLOAD_SIZE = current_block_size; *(volatile SYS_UWORD16 *) DOWNLOAD_ADDR = dsp_address; *(volatile SYS_UWORD16 *) DOWNLOAD_EXT_PAGE = dsp_ext_address; // perform the copy destinationPtr = (SYS_UWORD16 *) BASE_API_ARM; for (i=0 ; i<current_block_size ; i++) { *destinationPtr++ = *codePtr++; } // synchronize and prepare the next step *(volatile SYS_UWORD16 *) DOWNLOAD_STATUS = BLOCK_READY; dsp_address += current_block_size; remaining_size32 -= current_block_size; } } while ( (size != NULL) || (size_ext != NULL) ); // Setting of the starting address if required //--------------------------------------------- // Wait until LEAD is ready t = 0; do { stat = *((volatile SYS_UWORD16 *) DOWNLOAD_STATUS); t++; if (t > LA_TIMEOUT) return(LA_ERR_TIMEOUT); } while (stat != LEAD_READY); /* the part of the API used for the download must be reseted at end of download */ /* in case some values are not initialized within API before DSP start:*/ /* DSP start after DOWNLOAD_SIZE is set to zero.*/ destinationPtr = (SYS_UWORD16 *) BASE_API_ARM; for (i=0 ; i<max_block_size ; i++) { *destinationPtr++ = 0x0000; } if (start) { /* Set the last block, which is the starting address */ *(volatile SYS_UWORD16 *) DOWNLOAD_SIZE = 0; *(volatile SYS_UWORD16 *) DOWNLOAD_ADDR = dsp_address; *(volatile SYS_UWORD16 *) DOWNLOAD_EXT_PAGE = dsp_ext_address; *(volatile SYS_UWORD16 *) DOWNLOAD_STATUS = BLOCK_READY; } return(LA_SUCCESS); } else { error = LA_BAD_VERSION; } } else { error = LA_BAD_TAG; } if (error != NULL) // if an error was detected in the coff2c format, error = LA_LoadPage16(code, page, start); // try to download a coff-v1.0 coff2c output return(error); // and return its result } /* * LA_LoadPage16 * * Final LEAD boot - needs to communicate with initial LEAD Boot program * * Copy all sections to API * * Parameters : pointer to code, LEAD page, flag to start executing * Return value : 0 for success, 1 for timeout */ short LA_LoadPage16(const unsigned char code[], SYS_UWORD16 page, SYS_UWORD16 start) { int i = 0; int remainingSize, currentBlockSize; volatile int j; int t; int max_block_size; //biggest block size used during the patch download volatile SYS_UWORD16 *origin; volatile SYS_UWORD16 *destination; volatile SYS_UWORD16 *currentSection; SYS_UWORD16 addr, size, stat; currentSection = (SYS_UWORD16*) code; /* Take GSM application s/w */ max_block_size = 0; // Set the data page if needed if (page == 1) { // Wait until LEAD is ready t = 0; do { stat = *((volatile SYS_UWORD16 *) DOWNLOAD_STATUS); t++; if (t > LA_TIMEOUT) return(LA_ERR_TIMEOUT); } while ( stat != LEAD_READY); destination = (volatile SYS_UWORD16 *) BASE_API_ARM; *destination = 1; *(volatile SYS_UWORD16 *) DOWNLOAD_STATUS = PAGE_SELECTION; } do { /* while there is a section to transfer */ origin = currentSection + 2; size = *currentSection; addr = *(currentSection+1); remainingSize = size; while (remainingSize) { if (remainingSize > MAX_BLOCK_SIZE) currentBlockSize = MAX_BLOCK_SIZE; else currentBlockSize = remainingSize; /* Wait until LEAD is ready */ t = 0; do { stat = *((volatile SYS_UWORD16 *) DOWNLOAD_STATUS); t++; if (t > LA_TIMEOUT) return(LA_ERR_TIMEOUT); } while (stat != LEAD_READY); /* Set the block size and address in shared memory */ *(volatile SYS_UWORD16 *) DOWNLOAD_SIZE = currentBlockSize; *(volatile SYS_UWORD16 *) DOWNLOAD_ADDR = addr + size - remainingSize; if ( currentBlockSize > max_block_size ) { max_block_size = currentBlockSize; } /* Copy the block */ destination = (volatile SYS_UWORD16 *) BASE_API_ARM; for (i=0 ; i< currentBlockSize ; i++) { *destination = *origin++; destination += 1; // API is really 16-bit wide for MCU now ! } *(volatile SYS_UWORD16 *) DOWNLOAD_STATUS = BLOCK_READY; remainingSize -= currentBlockSize; } currentSection = origin; } while (size != 0); /* Wait until LEAD is ready */ t = 0; do { stat = *((volatile SYS_UWORD16 *) DOWNLOAD_STATUS); t++; if (t > LA_TIMEOUT) return(LA_ERR_TIMEOUT); } while (stat != LEAD_READY); /* the part of the API used for the download must be reseted at end of download */ /* in case some values are not initialized within API before DSP start:*/ /* DSP start after DOWNLOAD_SIZE is set to zero.*/ destination = (SYS_UWORD16 *) BASE_API_ARM; for (i=0 ; i<max_block_size ; i++) { *destination++ = 0x0000; } if (start) { /* Set the last block, which is the starting address */ *(volatile SYS_UWORD16 *) DOWNLOAD_SIZE = 0; *(volatile SYS_UWORD16 *) DOWNLOAD_ADDR = addr; *(volatile SYS_UWORD16 *) DOWNLOAD_STATUS = BLOCK_READY; } return(LA_SUCCESS); } /* * LeadBoot * * Start the LEAD without downloading any code */ short LeadBoot(SYS_UWORD16 entryPoint, SYS_UWORD16 pll) { SYS_UWORD16 section[2]; short res; section[0] = 0; // null size section[1] = entryPoint; #if ((CHIPSET == 4) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 10) || (CHIPSET == 11) || (CHIPSET == 12)) CLKM_RELEASELEADRESET; #else LA_StartLead(pll); #endif res = LA_LoadPage((const unsigned char *) section, 0, 1); return(res); } /* * LA_ReleaseLead * */ void LA_ReleaseLead(void) { (*(unsigned short *) CLKM_CNTL_RST) &= ~CLKM_LEAD_RST; }