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[/] [uart2bus_testbench/] [trunk/] [tb/] [uvm_src/] [dpi/] [uvm_hdl_questa.c] - Rev 16
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//---------------------------------------------------------------------- // Copyright 2007-2011 Cadence Design Systems, Inc. // Copyright 2009-2010 Mentor Graphics Corporation // Copyright 2010-2011 Synopsys, Inc. // All Rights Reserved Worldwide // // Licensed under the Apache License, Version 2.0 (the // "License"); you may not use this file except in // compliance with the License. You may obtain a copy of // the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in // writing, software distributed under the License is // distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR // CONDITIONS OF ANY KIND, either express or implied. See // the License for the specific language governing // permissions and limitations under the License. //---------------------------------------------------------------------- #include "uvm_dpi.h" /* * UVM HDL access C code. * */ /* * This C code checks to see if there is PLI handle * with a value set to define the maximum bit width. * * If no such variable is found, then the default * width of 1024 is used. * * This function should only get called once or twice, * its return value is cached in the caller. * */ static int uvm_hdl_max_width() { vpiHandle ms; s_vpi_value value_s = { vpiIntVal, { 0 } }; ms = vpi_handle_by_name((PLI_BYTE8*) "uvm_pkg::UVM_HDL_MAX_WIDTH", 0); if(ms == 0) return 1024; /* If nothing else is defined, this is the DEFAULT */ vpi_get_value(ms, &value_s); return value_s.value.integer; } #ifdef QUESTA static int uvm_hdl_set_vlog(char *path, p_vpi_vecval value, PLI_INT32 flag); static int uvm_hdl_get_vlog(char *path, p_vpi_vecval value, PLI_INT32 flag); static int partsel = 0; /* * Given a path with part-select, break into individual bit accesses * path = pointer to user string * value = pointer to logic vector * flag = deposit vs force/release options, etc */ static int uvm_hdl_set_vlog_partsel(char *path, p_vpi_vecval value, PLI_INT32 flag) { char *path_ptr = path; int path_len, idx; svLogicVecVal bit_value; path_len = strlen(path); path_ptr = (char*)(path+path_len-1); if (*path_ptr != ']') return 0; while(path_ptr != path && *path_ptr != ':' && *path_ptr != '[') path_ptr--; if (path_ptr == path || *path_ptr != ':') return 0; while(path_ptr != path && *path_ptr != '[') path_ptr--; if (path_ptr == path || *path_ptr != '[') return 0; int lhs, rhs, width, incr; // extract range from path if (sscanf(path_ptr,"[%u:%u]",&lhs, &rhs)) { char index_str[20]; int i; path_ptr++; path_len = (path_len - (path_ptr - path)); incr = (lhs>rhs) ? 1 : -1; width = (lhs>rhs) ? lhs-rhs+1 : rhs-lhs+1; // perform set for each individual bit for (i=0; i < width; i++) { sprintf(index_str,"%u]",rhs); strncpy(path_ptr,index_str,path_len); svGetPartselLogic(&bit_value,value,i,1); rhs += incr; if (!uvm_hdl_set_vlog(path,&bit_value,flag)) return 0; } return 1; } } /* * Given a path with part-select, break into individual bit accesses * path = pointer to user string * value = pointer to logic vector * flag = deposit vs force/release options, etc */ static int uvm_hdl_get_vlog_partsel(char *path, p_vpi_vecval value, PLI_INT32 flag) { char *path_ptr = path; int path_len, idx; svLogicVecVal bit_value; path_len = strlen(path); path_ptr = (char*)(path+path_len-1); if (*path_ptr != ']') return 0; while(path_ptr != path && *path_ptr != ':' && *path_ptr != '[') path_ptr--; if (path_ptr == path || *path_ptr != ':') return 0; while(path_ptr != path && *path_ptr != '[') path_ptr--; if (path_ptr == path || *path_ptr != '[') return 0; int lhs, rhs, width, incr; // extract range from path if (sscanf(path_ptr,"[%u:%u]",&lhs, &rhs)) { char index_str[20]; int i; path_ptr++; path_len = (path_len - (path_ptr - path)); incr = (lhs>rhs) ? 1 : -1; width = (lhs>rhs) ? lhs-rhs+1 : rhs-lhs+1; bit_value.aval = 0; bit_value.bval = 0; partsel = 1; for (i=0; i < width; i++) { int result; svLogic logic_bit; sprintf(index_str,"%u]",rhs); strncpy(path_ptr,index_str,path_len); result = uvm_hdl_get_vlog(path,&bit_value,flag); logic_bit = svGetBitselLogic(&bit_value,0); svPutPartselLogic(value,bit_value,i,1); rhs += incr; if (!result) return 0; } partsel = 0; return 1; } } #endif /* * Given a path, look the path name up using the PLI, * and set it to 'value'. */ static int uvm_hdl_set_vlog(char *path, p_vpi_vecval value, PLI_INT32 flag) { static int maxsize = -1; vpiHandle r; s_vpi_value value_s = { vpiIntVal, { 0 } }; s_vpi_time time_s = { vpiSimTime, 0, 0, 0.0 }; //vpi_printf("uvm_hdl_set_vlog(%s,%0x)\n",path,value[0].aval); #ifdef QUESTA int result = 0; result = uvm_hdl_set_vlog_partsel(path,value,flag); if (result < 0) return 0; if (result == 1) return 1; if (!strncmp(path,"$root.",6)) r = vpi_handle_by_name(path+6, 0); else #endif r = vpi_handle_by_name(path, 0); if(r == 0) { const char * err_str = "set: unable to locate hdl path (%s)\n Either the name is incorrect, or you may not have PLI/ACC visibility to that name"; char buffer[strlen(err_str) + strlen(path)]; sprintf(buffer, err_str, path); m_uvm_report_dpi(M_UVM_ERROR, (char*) "UVM/DPI/HDL_SET", &buffer[0], M_UVM_NONE, (char*)__FILE__, __LINE__); return 0; } else { if(maxsize == -1) maxsize = uvm_hdl_max_width(); if (flag == vpiReleaseFlag) { //size = vpi_get(vpiSize, r); //value_p = (p_vpi_vecval)(malloc(((size-1)/32+1)*8*sizeof(s_vpi_vecval))); //value = &value_p; } value_s.format = vpiVectorVal; value_s.value.vector = value; vpi_put_value(r, &value_s, &time_s, flag); //if (value_p != NULL) // free(value_p); if (value == NULL) { value = value_s.value.vector; } } #ifndef VCS vpi_release_handle(r); #endif return 1; } /* * Given a path, look the path name up using the PLI * and return its 'value'. */ static int uvm_hdl_get_vlog(char *path, p_vpi_vecval value, PLI_INT32 flag) { static int maxsize = -1; int i, size, chunks; vpiHandle r; s_vpi_value value_s; #ifdef QUESTA if (!partsel) { maxsize = uvm_hdl_max_width(); chunks = (maxsize-1)/32 + 1; for(i=0;i<chunks-1; ++i) { value[i].aval = 0; value[i].bval = 0; } } int result = 0; result = uvm_hdl_get_vlog_partsel(path,value,flag); if (result < 0) return 0; if (result == 1) return 1; if (!strncmp(path,"$root.",6)) r = vpi_handle_by_name(path+6, 0); else #endif r = vpi_handle_by_name(path, 0); if(r == 0) { const char * err_str = "get: unable to locate hdl path (%s)\n Either the name is incorrect, or you may not have PLI/ACC visibility to that name"; char buffer[strlen(err_str) + strlen(path)]; sprintf(buffer, err_str, path); m_uvm_report_dpi(M_UVM_ERROR, (char*)"UVM/DPI/HDL_GET", &buffer[0], M_UVM_NONE, (char*)__FILE__, __LINE__); // Exiting is too harsh. Just return instead. // tf_dofinish(); return 0; } else { if(maxsize == -1) maxsize = uvm_hdl_max_width(); size = vpi_get(vpiSize, r); if(size > maxsize) { const char * err_str = "uvm_reg : hdl path '%s' is %0d bits, but the maximum size is %0d. You can increase the maximum via a compile-time flag: +define+UVM_HDL_MAX_WIDTH=<value>"; char buffer[strlen(err_str) + strlen(path) + (2*int_str_max(10))]; sprintf(buffer, err_str, path, size, maxsize); m_uvm_report_dpi(M_UVM_ERROR, (char*)"UVM/DPI/HDL_SET", &buffer[0], M_UVM_NONE, (char*)__FILE__, __LINE__); //tf_dofinish(); #ifndef VCS vpi_release_handle(r); #endif return 0; } chunks = (size-1)/32 + 1; value_s.format = vpiVectorVal; vpi_get_value(r, &value_s); /*dpi and vpi are reversed*/ for(i=0;i<chunks; ++i) { value[i].aval = value_s.value.vector[i].aval; value[i].bval = value_s.value.vector[i].bval; } } //vpi_printf("uvm_hdl_get_vlog(%s,%0x)\n",path,value[0].aval); #ifndef VCS vpi_release_handle(r); #endif return 1; } /* * Given a path, look the path name up using the PLI, * but don't set or get. Just check. * * Return 0 if NOT found. * Return 1 if found. */ int uvm_hdl_check_path(char *path) { vpiHandle r; #ifdef QUESTA if (!strncmp(path,"$root.",6)) { r = vpi_handle_by_name(path+6, 0); } else #endif r = vpi_handle_by_name(path, 0); if(r == 0) return 0; else return 1; } /* * Given a path, look the path name up using the PLI * or the FLI, and return its 'value'. */ int uvm_hdl_read(char *path, p_vpi_vecval value) { return uvm_hdl_get_vlog(path, value, vpiNoDelay); } /* * Given a path, look the path name up using the PLI * or the FLI, and set it to 'value'. */ int uvm_hdl_deposit(char *path, p_vpi_vecval value) { return uvm_hdl_set_vlog(path, value, vpiNoDelay); } /* * Given a path, look the path name up using the PLI * or the FLI, and set it to 'value'. */ int uvm_hdl_force(char *path, p_vpi_vecval value) { return uvm_hdl_set_vlog(path, value, vpiForceFlag); } /* * Given a path, look the path name up using the PLI * or the FLI, and release it. */ int uvm_hdl_release_and_read(char *path, p_vpi_vecval value) { return uvm_hdl_set_vlog(path, value, vpiReleaseFlag); } /* * Given a path, look the path name up using the PLI * or the FLI, and release it. */ int uvm_hdl_release(char *path) { s_vpi_vecval value; p_vpi_vecval valuep = &value; return uvm_hdl_set_vlog(path, valuep, vpiReleaseFlag); }