#include "pcf.h" #include "prv.h" #include "emu.h" #include #include const char *pcf_def_header = "DEFAULT_OPTIONS\n" "\n" "LEVEL THREAD\n" "UNITS NANOSEC\n" "LOOK_BACK 100\n" "SPEED 1\n" "FLAG_ICONS ENABLED\n" "NUM_OF_STATE_COLORS 1000\n" "YMAX_SCALE 37\n" "\n" "\n" "DEFAULT_SEMANTIC\n" "\n" "THREAD_FUNC State As Is\n"; #define RGB(r, g, b) (r<<16 | g<<8 | b) #define ARRAY_LEN(x) (sizeof(x) / sizeof((x)[0])) /* Define colors for the trace */ #define DEEPBLUE RGB( 0, 0, 255) #define LIGHTGREY RGB(217, 217, 217) #define RED RGB(230, 25, 75) #define GREEN RGB(60, 180, 75) #define YELLOW RGB(255, 225, 25) #define ORANGE RGB(245, 130, 48) #define PURPLE RGB(145, 30, 180) #define CYAN RGB( 70, 240, 240) #define MAGENTA RGB(240, 50, 230) #define LIME RGB(210, 245, 60) #define PINK RGB(250, 190, 212) #define TEAL RGB( 0, 128, 128) #define LAVENDER RGB(220, 190, 255) #define BROWN RGB(170, 110, 40) #define BEIGE RGB(255, 250, 200) #define MAROON RGB(128, 0, 0) #define MINT RGB(170, 255, 195) #define OLIVE RGB(128, 128, 0) #define APRICOT RGB(255, 215, 180) #define NAVY RGB( 0, 0, 128) #define BLUE RGB( 0, 130, 200) #define GREY RGB(128, 128, 128) #define BLACK RGB( 0, 0, 0) const uint32_t pcf_def_palette[] = { BLACK, /* (never shown anyways) */ BLUE, /* runtime */ LIGHTGREY, /* busy wait */ RED, /* task */ GREEN, YELLOW, ORANGE, PURPLE, CYAN, MAGENTA, LIME, PINK, TEAL, GREY, LAVENDER, BROWN, BEIGE, MAROON, MINT, OLIVE, APRICOT, NAVY, DEEPBLUE }; const uint32_t *pcf_palette = pcf_def_palette; const int pcf_palette_len = ARRAY_LEN(pcf_def_palette); struct event_value { int value; const char *label; }; struct event_type { int index; int type; const char *label; struct event_value *values; }; /* ---------------- CHAN_OVNI_PID ---------------- */ struct event_value ovni_pid_values[] = { { 0, "None" }, { ST_TOO_MANY_TH, "Unknown PID: Multiple threads running" }, /* FIXME: PID values may collide with error code values */ { -1, NULL }, }; struct event_type thread_ovni_pid = { 0, chan_to_prvtype[CHAN_OVNI_PID][CHAN_TH], "Thread: PID of the RUNNING thread", ovni_pid_values }; struct event_type cpu_ovni_pid = { 0, chan_to_prvtype[CHAN_OVNI_PID][CHAN_CPU], "CPU: PID of the RUNNING thread", ovni_pid_values }; /* ---------------- CHAN_OVNI_TID ---------------- */ struct event_value ovni_tid_values[] = { { 0, "None" }, { ST_TOO_MANY_TH, "Unknown TID: Multiple threads running" }, /* FIXME: TID values may collide with error code values */ { -1, NULL }, }; struct event_type thread_ovni_tid = { 0, chan_to_prvtype[CHAN_OVNI_TID][CHAN_TH], "Thread: TID of the RUNNING thread", ovni_tid_values }; struct event_type cpu_ovni_tid = { 0, chan_to_prvtype[CHAN_OVNI_TID][CHAN_CPU], "CPU: TID of the RUNNING thread", ovni_tid_values }; /* ---------------- CHAN_OVNI_NRTHREADS ---------------- */ struct event_value ovni_nthreads_values[] = { { -1, NULL }, }; struct event_type cpu_ovni_nthreads = { 0, chan_to_prvtype[CHAN_OVNI_NRTHREADS][CHAN_CPU], "CPU: Number of RUNNING threads", ovni_nthreads_values }; /* ---------------- CHAN_OVNI_STATE ---------------- */ struct event_value ovni_state_values[] = { { TH_ST_UNKNOWN, "Unknown" }, { TH_ST_RUNNING, "Running" }, { TH_ST_PAUSED, "Paused" }, { TH_ST_DEAD, "Dead" }, { TH_ST_COOLING, "Cooling" }, { TH_ST_WARMING, "Warming" }, { -1, NULL }, }; struct event_type thread_ovni_state = { 0, chan_to_prvtype[CHAN_OVNI_STATE][CHAN_TH], "Thread: State of the CURRENT thread", ovni_state_values }; /* PRV CPU not used for the state */ /* ---------------- CHAN_OVNI_APPID ---------------- */ /* Not used */ /* ---------------- CHAN_OVNI_CPU ---------------- */ struct event_type thread_cpu_affinity = { 0, chan_to_prvtype[CHAN_OVNI_CPU][CHAN_TH], "Thread: CPU affinity of the CURRENT thread", /* Ignored */ NULL }; /* ---------------- CHAN_OVNI_FLUSH ---------------- */ struct event_value ovni_flush_values[] = { { 0, "None" }, { ST_OVNI_FLUSHING, "Flushing" }, { ST_TOO_MANY_TH, "Unknown flushing state: Multiple threads running" }, { -1, NULL }, }; struct event_type thread_ovni_flush = { 0, chan_to_prvtype[CHAN_OVNI_FLUSH][CHAN_TH], "Thread: Flushing state of the CURRENT thread", ovni_flush_values }; struct event_type cpu_ovni_flush = { 0, chan_to_prvtype[CHAN_OVNI_FLUSH][CHAN_CPU], "CPU: Flusing state of the RUNNING thread", ovni_flush_values }; /* ---------------- CHAN_NOSV_TASKID ---------------- */ struct event_value nosv_taskid_values[] = { { ST_TOO_MANY_TH, "Unknown TaskID: Multiple threads running" }, /* FIXME: Task ID values may collide with error code values */ { -1, NULL }, }; struct event_type thread_nosv_taskid = { 0, chan_to_prvtype[CHAN_NOSV_TASKID][CHAN_TH], "Thread: nOS-V TaskID of the RUNNING thread", nosv_taskid_values }; struct event_type cpu_nosv_taskid = { 0, chan_to_prvtype[CHAN_NOSV_TASKID][CHAN_CPU], "CPU: nOS-V TaskID of the RUNNING thread", nosv_taskid_values }; /* ---------------- CHAN_NOSV_TYPEID ---------------- */ struct event_value nosv_typeid_values[] = { { ST_TOO_MANY_TH, "Unknown Task TypeID: Multiple threads running" }, /* FIXME: Task ID values may collide with error code values */ { -1, NULL }, }; struct event_type thread_nosv_typeid = { 0, chan_to_prvtype[CHAN_NOSV_TYPEID][CHAN_TH], "Thread: nOS-V task TypeID of the RUNNING thread", nosv_typeid_values }; struct event_type cpu_nosv_typeid = { 0, chan_to_prvtype[CHAN_NOSV_TYPEID][CHAN_CPU], "CPU: nOS-V task TypeID of the RUNNING thread", nosv_typeid_values }; /* ---------------- CHAN_NOSV_APPID ---------------- */ struct event_value nosv_appid_values[] = { { ST_TOO_MANY_TH, "Unknown Task AppID: Multiple threads running" }, /* FIXME: Task ID values may collide with error code values */ { -1, NULL }, }; struct event_type thread_nosv_appid = { 0, chan_to_prvtype[CHAN_NOSV_APPID][CHAN_TH], "Thread: nOS-V task AppID of the RUNNING thread", nosv_appid_values }; struct event_type cpu_nosv_appid = { 0, chan_to_prvtype[CHAN_NOSV_APPID][CHAN_CPU], "CPU: nOS-V task AppID of the RUNNING thread", nosv_appid_values }; /* ---------------- CHAN_NOSV_SUBSYSTEM ---------------- */ struct event_value nosv_ss_values[] = { /* Errors */ { ST_BAD, "Unknown subsystem: Bad happened (report bug)" }, { ST_TOO_MANY_TH, "Unknown subsystem: Multiple threads running" }, /* Good values */ { ST_NULL, "No subsystem" }, { ST_NOSV_SCHED_HUNGRY, "Scheduler: Hungry" }, { ST_NOSV_SCHED_SERVING, "Scheduler: Serving" }, { ST_NOSV_SCHED_SUBMITTING, "Scheduler: Submitting" }, { ST_NOSV_TASK_RUNNING, "Task: Running" }, { ST_NOSV_CODE, "nOS-V code" }, { ST_NOSV_API_SUBMIT, "API: Submit" }, { ST_NOSV_API_PAUSE, "API: Pause" }, { ST_NOSV_API_YIELD, "API: Yield" }, { ST_NOSV_API_WAITFOR, "API: Waitfor" }, { ST_NOSV_API_SCHEDPOINT, "API: Scheduling point" }, { EV_NOSV_SCHED_SEND, "EV Scheduler: Send task" }, { EV_NOSV_SCHED_RECV, "EV Scheduler: Recv task" }, { EV_NOSV_SCHED_SELF, "EV Scheduler: Self-assign task" }, { ST_NOSV_MEM_ALLOCATING, "Memory: Allocating" }, { -1, NULL }, }; struct event_type thread_nosv_ss = { 0, chan_to_prvtype[CHAN_NOSV_SUBSYSTEM][CHAN_TH], "Thread: nOS-V subsystem of the ACTIVE thread", nosv_ss_values }; struct event_type cpu_nosv_ss = { 0, chan_to_prvtype[CHAN_NOSV_SUBSYSTEM][CHAN_CPU], "CPU: nOS-V subsystem of the RUNNING thread", nosv_ss_values }; /* ---------------- CHAN_TAMPI_MODE ---------------- */ struct event_value tampi_mode_values[] = { { ST_NULL, "NULL" }, { ST_TOO_MANY_TH, "TAMPI: Unknown, multiple threads running" }, { ST_TAMPI_SEND, "TAMPI: Send" }, { ST_TAMPI_RECV, "TAMPI: Recv" }, { ST_TAMPI_ISEND, "TAMPI: Isend" }, { ST_TAMPI_IRECV, "TAMPI: Irecv" }, { ST_TAMPI_WAIT, "TAMPI: Wait" }, { ST_TAMPI_WAITALL, "TAMPI: Waitall" }, { -1, NULL }, }; struct event_type cpu_tampi_mode = { 0, chan_to_prvtype[CHAN_TAMPI_MODE][CHAN_CPU], "CPU: TAMPI mode of the RUNNING thread", tampi_mode_values }; struct event_type thread_tampi_mode = { 0, chan_to_prvtype[CHAN_TAMPI_MODE][CHAN_TH], "Thread: TAMPI mode of the RUNNING thread", tampi_mode_values }; /* ---------------- CHAN_OPENMP_MODE ---------------- */ struct event_value openmp_mode_values[] = { { ST_NULL, "NULL" }, { ST_TOO_MANY_TH, "OpenMP: Unknown, multiple threads running" }, { ST_OPENMP_TASK, "OpenMP: Task" }, { ST_OPENMP_PARALLEL, "OpenMP: Parallel" }, { -1, NULL }, }; struct event_type cpu_openmp_mode = { 0, chan_to_prvtype[CHAN_OPENMP_MODE][CHAN_CPU], "CPU: OpenMP mode of the RUNNING thread", openmp_mode_values }; struct event_type thread_openmp_mode = { 0, chan_to_prvtype[CHAN_OPENMP_MODE][CHAN_TH], "Thread: OpenMP mode of the RUNNING thread", openmp_mode_values }; /* ----------------------------------------------- */ static void decompose_rgb(uint32_t col, uint8_t *r, uint8_t *g, uint8_t *b) { *r = (col>>16) & 0xff; *g = (col>>8) & 0xff; *b = (col>>0) & 0xff; } static void write_header(FILE *f) { fprintf(f, "%s", pcf_def_header); } static void write_colors(FILE *f, const uint32_t *palette, int n) { int i; uint8_t r, g, b; fprintf(f, "\n\n"); fprintf(f, "STATES_COLOR\n"); for(i=0; iindex, ev->type, ev->label); fprintf(f, "VALUES\n"); for(i=0; ev->values[i].label; i++) { fprintf(f, "%-4d %s\n", ev->values[i].value, ev->values[i].label); } } static void write_cpu_type(FILE *f, struct event_type *ev, struct ovni_emu *emu) { size_t i; write_event_type_header(f, ev->index, ev->type, ev->label); fprintf(f, "VALUES\n"); for(i=0; itotal_ncpus; i++) { fprintf(f, "%-4ld %s\n", i+1, emu->global_cpu[i]->name); } } static void write_events(FILE *f, struct ovni_emu *emu) { /* Threads */ write_event_type(f, &thread_ovni_pid); write_event_type(f, &thread_ovni_tid); /* thread_ovni_nthreads not needed */ write_event_type(f, &thread_ovni_state); /* thread_ovni_appid not needed */ write_event_type(f, &thread_ovni_flush); write_event_type(f, &thread_nosv_taskid); write_event_type(f, &thread_nosv_typeid); write_event_type(f, &thread_nosv_appid); write_event_type(f, &thread_nosv_ss); write_event_type(f, &thread_tampi_mode); write_event_type(f, &thread_openmp_mode); /* CPU */ write_event_type(f, &cpu_ovni_pid); write_event_type(f, &cpu_ovni_tid); /* cpu_ovni_nthreads not needed */ /* cpu_ovni_state not needed */ /* cpu_ovni_appid not needed */ /* cpu_ovni_cpu not needed */ write_event_type(f, &cpu_ovni_flush); write_event_type(f, &cpu_nosv_taskid); write_event_type(f, &cpu_nosv_typeid); write_event_type(f, &cpu_nosv_appid); write_event_type(f, &cpu_nosv_ss); write_event_type(f, &cpu_tampi_mode); write_event_type(f, &cpu_openmp_mode); /* Custom */ write_cpu_type(f, &thread_cpu_affinity, emu); } int pcf_write(FILE *f, struct ovni_emu *emu) { write_header(f); write_colors(f, pcf_palette, pcf_palette_len); write_events(f, emu); return 0; }