#include "common.hpp" #include "rocm_async.hpp" #include #include #include // Parse option value string. The string has one more decimal // values separated by comma - "3,6,9,12,15". static bool ParseOptionValue(char* value, vector&value_list) { // Capture the option value string std::stringstream stream; stream << value; uint32_t token = 0x11231926; do { // Read the option value stream >> token; // Update output list with values value_list.push_back(token); // Ignore the delimiter if((stream.eof()) || (stream.peek() == ',')) { stream.ignore(); } else { return false; } } while (!stream.eof()); return true; } void RocmAsync::ParseArguments() { bool print_help = false; bool copy_all_bi = false; bool copy_all_uni = false; bool print_topology = false; // This will suppress prints from getopt implementation // In case of error, it will return the character '?' as // return value. opterr = 0; int opt; bool status; while ((opt = getopt(usr_argc_, usr_argv_, "hvtaAb:s:d:r:w:m:")) != -1) { switch (opt) { // Print help screen case 'h': print_help = true; break; // Print system topology case 't': print_topology = true; break; // Set verification flag to true case 'v': verify_ = true; break; // Collect list of agents involved in bidirectional copy operation case 'b': status = ParseOptionValue(optarg, bidir_list_); if (status) { req_copy_bidir_ = REQ_COPY_BIDIR; break; } print_help = true; break; // Collect list of source pools involved in unidirectional copy operation case 's': status = ParseOptionValue(optarg, src_list_); if (status) { req_copy_unidir_ = REQ_COPY_UNIDIR; break; } print_help = true; break; // Collect list of destination pools involved in unidirectional copy operation case 'd': status = ParseOptionValue(optarg, dst_list_); if (status) { req_copy_unidir_ = REQ_COPY_UNIDIR; break; } print_help = true; break; // Collect request to read a buffer case 'r': req_read_ = REQ_READ; status = ParseOptionValue(optarg, read_list_); if (status == false) { print_help = true; } break; // Collect request to write a buffer case 'w': req_write_ = REQ_WRITE; status = ParseOptionValue(optarg, write_list_); if (status == false) { print_help = true; } break; // Size of buffers to use in copy and read/write operations case 'm': status = ParseOptionValue(optarg, size_list_); if (status == false) { print_help = true; } break; // Enable Unidirectional copy among all valid pools case 'a': copy_all_uni = true; req_copy_all_unidir_ = REQ_COPY_ALL_UNIDIR; break; // Enable Bidirectional copy among all valid pools case 'A': copy_all_bi = true; req_copy_all_bidir_ = REQ_COPY_ALL_BIDIR; break; // getopt implementation returns the value of the unknown // option or an option with missing operand in the variable // optopt case '?': std::cout << "Value of optopt is: " << '?' << std::endl; if ((optopt == 'b' || optopt == 's' || optopt == 'd' || optopt == 'e')) { std::cout << "Error: Option -b -s -d and -e require argument" << std::endl; } print_help = true; break; default: print_help = true; break; } } // Print help screen if user option has "-h" if (print_help) { PrintHelpScreen(); exit(0); } // Initialize Roc Runtime err_ = hsa_init(); ErrorCheck(err_); // Discover the topology of RocR agent in system DiscoverTopology(); // Print system topology if user option has "-t" if (print_topology) { PrintTopology(); exit(0); } // Invalidate request if user has requested full // copying for both unidirectional and bidirectional if ((copy_all_bi) && (copy_all_uni)) { PrintHelpScreen(); exit(0); } // Initialize pool list if full copying in unidirectional mode is enabled if (copy_all_uni) { uint32_t size = pool_list_.size(); for (uint32_t idx = 0; idx < size; idx++) { src_list_.push_back(idx); dst_list_.push_back(idx); } } // Initialize pool list if full copying in bidirectional mode is enabled if (copy_all_bi) { uint32_t size = pool_list_.size(); for (uint32_t idx = 0; idx < size; idx++) { bidir_list_.push_back(idx); } } // Initialize the list of buffer sizes to use in copy/read/write operations // For All Copy operations use only one buffer size if (size_list_.size() == 0) { uint32_t size_len = sizeof(SIZE_LIST)/sizeof(uint32_t); for (uint32_t idx = 0; idx < size_len; idx++) { if ((copy_all_bi) || (copy_all_uni)) { if (idx == 0) { size_list_.push_back(SIZE_LIST[idx]); } } else { size_list_.push_back(SIZE_LIST[idx]); } } } std::sort(size_list_.begin(), size_list_.end()); }