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Daniela Genius authoredDaniela Genius authored
MappingTable.java 11.67 KiB
/* this class produces the lines pertaining to the segment table. Except the segments containing CHANNEL channels and those corresponding to targets in shared memory, they need not be sepcified by the user of the deployment diagram */
/* authors: v1.0 Raja GATGOUT 2014
v2.0 Daniela GENIUS, Julien HENON 2015 - 2016 */
package ddtranslatorSoclib.toTopCell;
import ddtranslatorSoclib.*;
import java.util.*;
public class MappingTable {
private final static String CR = "\n";
private final static String CR2 = "\n\n";
private static String mapping;
public static String getMappingTable() {
int l=0;
int nb_clusters=TopCellGenerator.avatardd.getAllCrossbar().size();
int nb_ram =TopCellGenerator.avatardd.getAllRAM().size();
System.out.println("Number of clusters : "+ nb_clusters);
if(nb_clusters == 0){
mapping = CR2 + "//-----------------------mapping table------------------------" + CR2;
mapping = mapping + "// ppc segments" + CR2;
mapping = mapping + "maptab.add(Segment(\"resetppc\", 0xffffff80, 0x0080, IntTab(1), true));" + CR;
mapping = mapping + "maptab.add(Segment(\"resetnios\", 0x00802000, 0x1000, IntTab(1), true));" + CR;
mapping = mapping + "maptab.add(Segment(\"resetzero\", 0x00000000, 0x1000, IntTab(1), true));" + CR;
mapping = mapping + "maptab.add(Segment(\"resetmips\", 0xbfc00000, 0x1000, IntTab(1), true));" + CR;
/*there are seven targets which are fixed; target 3 to 6 are transparent and do not appear in the TTool deployment diagram:
Targets on RAM0 :
the text segment (target 0)
the reset segment (target 1)
the data segment (target 2)
Other targets :
the simhelper segment (target 3)
the icu segment (target 4)
the timer segment (target 5)
the fdt segment (target 6)
additional RAM segments (target 6+i)
tty segments (target 6+i+j)
fd access segment (target 6+i+j+1)
ethernet segment (target 6+i+j+2)
block device segment (target 6+i+j+3)
*/
mapping += CR2 + "// RAM segments" + CR2;
mapping += "maptab.add(Segment(\"text\", 0x60000000, 0x00100000, IntTab(0), true));" + CR;
mapping += "maptab.add(Segment(\"rodata\", 0x80000000, 0x01000000, IntTab(1), true));" + CR;
mapping += "maptab.add(Segment(\"data\", 0x7f000000, 0x01000000, IntTab(2), false)); " + CR2;
mapping = mapping + "maptab.add(Segment(\"simhelper\", 0xd3200000, 0x00000100, IntTab(3), false));" + CR;
mapping = mapping + " maptab.add(Segment(\"vci_xicu\", 0xd2200000, 0x00001000, IntTab(4), false));" + CR;
mapping = mapping + "maptab.add(Segment(\"vci_rttimer\", 0xd6000000, 0x00000100, IntTab(5), false));" + CR2;
mapping = mapping + "maptab.add(Segment(\"vci_fdt_rom\", 0xe0000000, 0x00001000, IntTab(6), false));" + CR2;
int address_start = 268435456;
int j=0; int i=0;
int size;
//if(TopCellGenerator.avatardd.getAllCrossbar().size()==0){
for (AvatarRAM ram : TopCellGenerator.avatardd.getAllRAM()) {
// if no data size is given calculate default data size
if(ram.getDataSize()==0){
if((nb_clusters<16)||(TopCellGenerator.avatardd.getAllRAM().size()<16)){
size = 1073741824;
}
else {//dimension segments to be smaller
size = 268435456;
}
}
else{
size = ram.getDataSize();
}
ram.setDataSize(size);
size = ram.getDataSize(); // this is the hardware RAM size
int step = 268435456;// DG 11.10. attention cacheability bit, cannot take any size given in DD, must be checked, toDo
int cacheability_bit= 2097152; //0x00200000
/* Boot Ram segments 0,1,2 */
if(ram.getNo_ram() ==0){
ram.setNo_target(2);//in the following assign target number 2
mapping += "maptab.add(Segment(\"cram" + ram.getNo_ram() + "\", 0x" +Integer.toHexString(address_start+i*step)+ ", 0x"+Integer.toHexString(ram.getDataSize()/2)+", IntTab("+(ram.getNo_target())+"), true));" + CR;
mapping += "maptab.add(Segment(\"uram" + ram.getNo_ram() + "\", 0x" + Integer.toHexString(address_start+i*step+cacheability_bit+ram.getDataSize()/2)+ ", 0x"+Integer.toHexString(ram.getDataSize()/2)+", IntTab("+(ram.getNo_target())+"), false));" + CR;
i++;
}
else{
ram.setNo_target(7+j);
mapping += "maptab.add(Segment(\"cram" + ram.getNo_ram() + "\", 0x" + Integer.toHexString(address_start+i*step)+ ", 0x"+Integer.toHexString(ram.getDataSize()/2)+", IntTab("+(ram.getNo_target())+"), true));" + CR;
mapping += "maptab.add(Segment(\"uram" + ram.getNo_ram() + "\", 0x" + Integer.toHexString(address_start+i*step+ram.getDataSize()/2+cacheability_bit) + " , 0x"+Integer.toHexString(ram.getDataSize()/2)+", IntTab("+(ram.getNo_target())+"), false));" + CR;
j++;
i++;
}
}
int m=0;
for (AvatarTTY tty : TopCellGenerator.avatardd.getAllTTY()) {
/* we calculate the target number of one or several (multi-) ttys which come after the j rams and the 7 compulsory targets */
tty.setNo_target(7+j);
/* we use a simple formula for calculating the TTY address in case of multiple (multi-) ttys */
/* attention this will not work for more than 10 TTYs */
mapping += "maptab.add(Segment(\"vci_multi_tty"+m+"\" , 0xd"+tty.getNo_tty()+"200000, 0x00000010, IntTab(" +tty.getNo_target() +"), false));" + CR;
j++;
m++;
l=tty.getNo_target();
}
// }
mapping = mapping + "maptab.add(Segment(\"vci_fd_access\", 0xd4200000, 0x00000100, IntTab("+(l+1)+"), false));" + CR;
mapping = mapping + "maptab.add(Segment(\"vci_ethernet\", 0xd5000000, 0x00000020, IntTab("+(l+2)+"), false));" + CR;
mapping = mapping + "maptab.add(Segment(\"vci_block_device\", 0xd1200000, 0x00000020, IntTab("+(l+3)+"), false));" + CR2;
mapping = mapping + "maptab.add(Segment(\"vci_locks\", 0xC0200000, 0x00000100, IntTab("+(l+4)+"), false));" + CR2;
return mapping;
}
else{
/* clustered version */
mapping = CR2 + "maptab.add(Segment(\"resetppc\", 0xffffff80, 0x0080, IntTab(0,1), true));" + CR;
mapping = mapping + "maptab.add(Segment(\"resetnios\", 0x00802000, 0x1000, IntTab(0,1), true));" + CR;
mapping = mapping + "maptab.add(Segment(\"resetzero\", 0x00000000, 0x1000, IntTab(0,1), true));" + CR;
mapping = mapping + "maptab.add(Segment(\"resetmips\", 0xbfc00000, 0x1000, IntTab(0,1), true));" + CR;
mapping += CR2 + "// RAM shared segments on cluster 0" + CR2;
mapping += "maptab.add(Segment(\"text\", 0x60000000, 0x00100000, IntTab(0,0), true));" + CR;
mapping += "maptab.add(Segment(\"rodata\", 0x80000000, 0x01000000, IntTab(0,1), true));" + CR;
mapping += "maptab.add(Segment(\"data\", 0x7f000000, 0x01000000, IntTab(0,2), false)); " + CR2; mapping = mapping + "maptab.add(Segment(\"simhelper\", 0x15200000, 0x00000100, IntTab(0,3), false));" + CR;
mapping = mapping + "maptab.add(Segment(\"vci_fdt_rom\", 0x16200000, 0x00001000, IntTab(0,4), false));" + CR2;
mapping = mapping + "maptab.add(Segment(\"vci_fd_access\", 0x17200000, 0x00000100, IntTab(0,5), false));" + CR;
mapping = mapping + "maptab.add(Segment(\"vci_ethernet\", 0x18200000, 0x00000020, IntTab(0,6), false));" + CR;
mapping = mapping + "maptab.add(Segment(\"vci_block_device\", 0x19200000, 0x00000020, IntTab(0,7), false));" + CR2;
mapping = mapping + "maptab.add(Segment(\"vci_locks\", 0x1A200000, 0x00000020, IntTab(0,8), false));" + CR2;
int SEG_ICU_BASE = 285212672;
int SEG_ICU_SIZE = 20;
int NB_DMAS = 1;
int SEG_DMA_BASE = 304087040;
int SEG_DMA_SIZE = (NB_DMAS * 20);
int NB_TIMERS = 1;
int SEG_TIM_BASE = 318767104;
int SEG_TIM_SIZE = (NB_TIMERS * 16 );
int SEG_TTY_BASE = 337641472;
int SEG_TTY_SIZE = 16;
int CLUSTER_SIZE;
//if the user does not specify the size, take default value
if(nb_clusters<16) {
CLUSTER_SIZE = 268435456;}
else {
CLUSTER_SIZE = 134217728;
}// to be refined, cf DSX -> dynamically adapt
/* RAM adresses always start at 0x10000000 decimal 268435456*/
int SEG_RAM_BASE = 268435456;
int cluster = 0;
// mapping += "maptab.add(Segment(\"icu" + cluster + "\",0x"+ Integer.toHexString(SEG_ICU_BASE)+", 0x"+ Integer.toHexString(SEG_ICU_SIZE)+", IntTab(0,9), false));" + CR;
mapping += "maptab.add(Segment(\"vci_xicu\",0x"+ Integer.toHexString(SEG_ICU_BASE)+", 0x"+ Integer.toHexString(SEG_ICU_SIZE)+", IntTab(0,9), false));" + CR;
//mapping += "maptab.add(Segment(\"dma" + cluster + "\", 0x"+ Integer.toHexString(SEG_DMA_BASE)+", 0x"+ Integer.toHexString(SEG_DMA_SIZE)+", IntTab(0,10), false));" + CR;
mapping += "maptab.add(Segment(\"dma\", 0x"+ Integer.toHexString(SEG_DMA_BASE)+", 0x"+ Integer.toHexString(SEG_DMA_SIZE)+", IntTab(0,10), false));" + CR;
// mapping += "maptab.add(Segment(\"timer" + cluster + "\", 0x"+ Integer.toHexString(SEG_TIM_BASE)+", 0x"+ Integer.toHexString(SEG_TIM_SIZE)+", IntTab(0,11), true));" + CR;
mapping += "maptab.add(Segment(\"vci_rttimer\", 0x"+ Integer.toHexString(SEG_TIM_BASE)+", 0x"+ Integer.toHexString(SEG_TIM_SIZE)+", IntTab(0,11), true));" + CR;
// all other clusters
// for(cluster=1;cluster<nb_clusters; cluster++){
// mapping += "maptab.add(Segment(\"icu" + cluster + "\", 0x"+ Integer.toHexString(SEG_ICU_BASE + cluster * CLUSTER_SIZE)+", 0x"+Integer.toHexString(SEG_ICU_SIZE)+", IntTab("+cluster +","+1+"), true));" + CR;
// mapping += "maptab.add(Segment(\"dma" + cluster + "\", 0x"+ Integer.toHexString(SEG_DMA_BASE + cluster * CLUSTER_SIZE)+", 0x"+Integer.toHexString(SEG_DMA_SIZE)+", IntTab("+cluster +","+2+"), false));" + CR;
// mapping += "maptab.add(Segment(\"timer" + cluster + "\", 0x"+ Integer.toHexString(SEG_TIM_BASE + cluster * CLUSTER_SIZE)+", 0x"+Integer.toHexString(SEG_TIM_SIZE)+", IntTab("+cluster +","+3+"), true));" + CR;
// }
int cacheability_bit= 2097152; //0x00200000 T
/* RAM base address is SEG_RAM_BASE + CLUSTER_NUMBER * CLUSTER_SIZE;
this is the memory space covered by the RAMs of a cluster */
//we want to identify the RAMS on this cluster (not RAMs in total)
for (AvatarRAM ram : TopCellGenerator.avatardd.getAllRAM()) {
mapping += "maptab.add(Segment(\"cram" + ram.getNo_ram() + "\", 0x"+Integer.toHexString(SEG_RAM_BASE+ ram.getNo_cluster()*CLUSTER_SIZE)+", 0x"+Integer.toHexString(ram.getDataSize()/2)+", IntTab("+ram.getNo_cluster()+","+(ram.getNo_target())+"), true));" + CR;
mapping += "maptab.add(Segment(\"uram" + ram.getNo_ram() + "\", 0x"+Integer.toHexString(SEG_RAM_BASE + ram.getNo_cluster()*CLUSTER_SIZE+cacheability_bit)+", 0x"+Integer.toHexString(ram.getDataSize()/2)+", IntTab("+ram.getNo_cluster()+","+(ram.getNo_target())+"), false));" + CR;
}
//we want to identify the TTYS on this cluster (not TTYs in total)
//currently one tty per cluster
for (AvatarTTY tty : TopCellGenerator.avatardd.getAllTTY()) {
/* the number of fixed targets varies depending on if we are on cluster 0 or on other clusters */
if(tty.getNo_cluster()==0){
tty.setNo_target(10+nb_ram);
}
else{
tty.setNo_target(nb_ram);
}
mapping += "maptab.add(Segment(\"vci_multi_tty"+tty.getIndex()+"\" , 0x"+Integer.toHexString(SEG_TTY_BASE + tty.getNo_cluster()* CLUSTER_SIZE)+", 0x00000010, IntTab("+tty.getNo_cluster()+","+(tty.getNo_target())+"), false));" + CR;
}
}
return mapping;
}
}