source: trigger/v812.c@ 803

//******************************************************************************
//Constants
//******************************************************************************

#define NMAX_V812_MODULES 10 //maximum 65535, probably more than enough...
#define V812_CHANNELS 16
#include "v812.h"
//******************************************************************************
//Type definitions
//******************************************************************************


//******************************************************************************
//Global Variables
//******************************************************************************

v812_module_t v812_modules[NMAX_V812_MODULES];

//******************************************************************************
//Function Definitions
//******************************************************************************

VME_ErrorCode_t V812_Open(void)
{
        u_int tmp_virtual_address, tmp_base_address;
        u_short i=0;
        VME_ErrorCode_t error_code;
        VME_MasterMap_t master_map;
        
        master_map.vmebus_address       = 0x00010000;
        master_map.window_size          = 0x1000;
        master_map.address_modifier     = VME_A24;
        master_map.options                      = 0;
        
        for(i=0; i<NMAX_V812_MODULES; i++) {
                v812_modules[i].present = 0;
        }
        
        //opening the file containing the base addresses
        FILE *datfile = fopen("v812_base.dat","r");
        char line[256];
        
        i=0;
        if (datfile!=NULL) {
                while(fgets(line,255,datfile)) {
                        
                        //excluding comment lines
                        if(line[0] == '%') {
                                continue;
                        }
                        
                        //reading the hex address
                        if(!sscanf(&line[2],"%8x",&tmp_base_address)) {
                          printf("Reading input file v812_base.dat: non-comment line without address found. Please delete or comment this line.\n");
                        }
                        
                        //check address, assign to the master map
                        if(tmp_base_address & 0x0000FFFF) {
                                printf("Reading input file v812_base.dat: 0x%08x is no valid base address (0xXXXX0000)\n",tmp_base_address);
                                continue;
                        }
                        if(i>=NMAX_V812_MODULES) {
                                printf("Reading input file v812_base.dat: More addresses found than memory space provided.\nIncrease NMAX_V812_MODULES in v812.h and v812.c.\n");
                                break;
                        }
                        master_map.vmebus_address = tmp_base_address;
                        
                        if(error_code = VME_MasterMap(&master_map,&v812_modules[i].master_mapping)) {
                                VME_ErrorPrint(error_code);
                                return error_code;
                        }

                        if(error_code = VME_MasterMapVirtualAddress(v812_modules[i].master_mapping,&tmp_virtual_address)) {
                                VME_ErrorPrint(error_code);
                                return error_code;
                        }
                        
                        v812_modules[i].registers = (v812_registers_t *) tmp_virtual_address;
                        
                        if(v812_modules[i].registers->manufacturer_type==0x0851) {
                          //printf("v812-module %i found at address 0x%08x:\n\tMaster mapping: %i\n\tVirtual address: 0x%08x\n\n",i+1,tmp_base_address,v812_modules[i].master_mapping,v812_modules[i].registers);
                                v812_modules[i].present = 1;
                        }
                        else {
                                printf("Module %i at address 0x%08x is not of type v812, or module not found. Please check the v812_base.dat-file.\n\n",i+1,tmp_base_address);
                                v812_modules[i].present = 0;
                                if(error_code = VME_MasterUnmap(v812_modules[i].master_mapping)) {
                                        VME_ErrorPrint(error_code);
                                        return error_code;
                                }
                        }
                        
                        i++;
                }
                fclose(datfile);
        }
        else { printf("File v812_base.dat containing the base addresses of the v812-modules not found.\n"); error_code = VME_FILE; return error_code; }
        
        return VME_SUCCESS;
}

//******************************************************************************

int V812_Set_Threshold(short module, short channel, short threshold)
{
        //return values
        //0: threshold set successful
        //1: module out of range or not present
        //2: channel number out of range
        //3: threshold out of range (threshold in mV between -1 mV and -255 mV)
        
        if((module>NMAX_V812_MODULES) || (v812_modules[module-1].present != 1)) { return 1; }
        if(!((channel>=0) && (channel<=15))) { return 2; }
        if(!((threshold>=1) && (channel<=255))) { return 3; }
        v812_modules[module-1].registers->threshold_ch[channel] = threshold;
        return 0;

        /* comment on little/big endian: the Intel architecture uses little Endian coding,
        whereas the VME-Standard uses big Endian (to my knowledge). Nonetheless the thresholds
        can be written directly to the module memory since the thresholds are saved as 8 bit
        words located at the adress of the short integer (according to the Technical Information
        Manual MOD. V 812 Series, p 16). */
}

//******************************************************************************

int V812_Set_Pattern_Inhibit(short module, char channels[16])
{
        //return values
        //0: pattern of inhibit written successfully
        //1: module out of range or not present
        if((module>NMAX_V812_MODULES) || (v812_modules[module-1].present != 1)) { return 1; }
        
        //create the pattern of inhibit
        u_short pattern = 0;
        int i;
        for(i=0; i<16; i++) {
                if(channels[i]!=0) {
                        switch(i) {
                                case 0: pattern |= 0x0001; break;
                                case 1: pattern |= 0x0002; break;
                                case 2: pattern |= 0x0004; break;
                                case 3: pattern |= 0x0008; break;
                                case 4: pattern |= 0x0010; break;
                                case 5: pattern |= 0x0020; break;
                                case 6: pattern |= 0x0040; break;
                                case 7: pattern |= 0x0080; break;
                                case 8: pattern |= 0x0100; break;
                                case 9: pattern |= 0x0200; break;
                                case 10: pattern |= 0x0400; break;
                                case 11: pattern |= 0x0800; break;
                                case 12: pattern |= 0x1000; break;
                                case 13: pattern |= 0x2000; break;
                                case 14: pattern |= 0x4000; break;
                                case 15: pattern |= 0x8000; break;
                        }
                }
        }
        v812_modules[module-1].registers->pattern_inhibit = pattern;
        return 0;
}
int V812_Set_Pattern_Inhibit_Hex(short module, int pattern)
{
        //return values
        //0: pattern of inhibit written successfully
        //1: module out of range or not present
        if((module>NMAX_V812_MODULES) || (v812_modules[module-1].present != 1)) { return 1; }
        
        v812_modules[module-1].registers->pattern_inhibit = pattern;
        return 0;
}
//******************************************************************************

int V812_Set_Output_Width(short module, short channel_block, short width)
{
        //channel_block: 0 for ch0-ch7, 1 for ch8-ch15
        
        //return values
        //0: width set successful
        //1: module out of range or not present
        //2: channel_block out of range
        //3: width out of range (width between 0 (15 ns) and 255 (250 ns), non-linear relation)
        
        if((module>NMAX_V812_MODULES) || (v812_modules[module-1].present != 1)) { return 1; }
        if(!((channel_block>=0) && (channel_block<=1))) { return 2; }
        if(!((width>=0) && (width<=255))) { return 3; }
        v812_modules[module-1].registers->output_width[channel_block] = width;
        return 0;
}

//******************************************************************************

int V812_Set_Dead_Time(short module, short channel_block, short dead_time)
{
        //channel_block: 0 for ch0-ch7, 1 for ch8-ch15
        
        //return values
        //0: dead time set successful
        //1: module out of range or not present
        //2: channel_block out of range
        //3: dead time out of range (dead time between 0 (150 ns) and 255 (2 us))
        
        if((module>NMAX_V812_MODULES) || (v812_modules[module-1].present != 1)) { return 1; }
        if(!((channel_block>=0) && (channel_block<=1))) { return 2; }
        if(!((dead_time>=0) && (dead_time<=255))) { return 3; }
        v812_modules[module-1].registers->dead_time[channel_block] = dead_time;
        return 0;
}

//******************************************************************************

int V812_Set_Majority_Level(short module, short majority_level)
{
        //majority_level according to Technical Information Manual, p. 17
        
        //return values
        //0: majority level set succesful
        //1: module out of range or not present
        //2: majority level out of range (1 to 20)
        
        u_short majority_threshold;
        
        if((module>NMAX_V812_MODULES) || (v812_modules[module-1].present != 1)) { return 1; }
        if(!((majority_level>=1) && (majority_level<=20))) { return 2; }
        
        majority_threshold = (double) (majority_level*50-25)/4 + 0.5;
        //Why + 0.5? This is necessary for the correct calculation of the nearest integer since double-variables are truncated when converted to integer
        
        v812_modules[module-1].registers->majority_threshold = majority_threshold;
        return 0;
}
int V812_Set_Majority_Threshold(short module, short majority_threshold)
{
        //majority_threshold according to Technical Information Manual, p. 17
        
        //return values
        //0: majority threshold set succesful
        //1: module out of range or not present
        //2: majority threshold out of range (1 to 255)
        
        if((module>NMAX_V812_MODULES) || (v812_modules[module-1].present != 1)) { return 1; }
        if(!((majority_threshold>=1) && (majority_threshold<=255))) { return 2; }
        v812_modules[module-1].registers->majority_threshold = majority_threshold;
        return 0;
}

//******************************************************************************

int V812_Test_Pulse(short module)
{
        //return values
        //0: test pulse generated successfully
        //1: module out of range or not present
        
        if((module>NMAX_V812_MODULES) || (v812_modules[module-1].present != 1)) { return 1; }
        v812_modules[module-1].registers->test_pulse = 0xFFFF;
        return 0;
}

//******************************************************************************

int V812_Print_Info(void)
{
        //return values
        //0: print to stdio successful

        u_short manufacturer, type, version, sn, i;
        
        for(i=0; i<NMAX_V812_MODULES; i++) {
                if(v812_modules[i].present != 1) {
                        printf("Module %i is not present.\n",i+1);
                        continue;
                }
                
                printf("v812-module %i (master mapping %i) found:\n",i+1,v812_modules[i].master_mapping);
                manufacturer = v812_modules[i].registers->manufacturer_type;            manufacturer &= 0xFC00; // 0b1111 1100 0000 0000
                type = v812_modules[i].registers->manufacturer_type;                            type &= 0x03FF;                 // 0b0000 0011 1111 1111
                version = v812_modules[i].registers->version_serialnumber;              version &= 0xF000;                      // 0b1111 0000 0000 0000
                sn = v812_modules[i].registers->version_serialnumber;                   sn &= 0x0FFF;                           // 0b0000 1111 1111 1111
                printf("Manufacturer: 0x%04x\nType: 0x%04x\nVersion: 0x%04x\nSerial Number:0x%04x\n\n", manufacturer, type, version, sn);
        }
        return 0;
}

//******************************************************************************


VME_ErrorCode_t V812_Close(void)
{
        VME_ErrorCode_t error_code;
        u_short i;
        
        for(i=0; i<NMAX_V812_MODULES; i++) {
                if(v812_modules[i].present != 1) continue;
                
                printf("Closing v812-module %i with master mapping %i...",i+1,v812_modules[i].master_mapping);
                if(error_code = VME_MasterUnmap(v812_modules[i].master_mapping)) {
                        VME_ErrorPrint(error_code);
                        return error_code;
                }
                printf("closed.\n");
        }
        
        return VME_SUCCESS;
}

//******************************************************************************