#ifndef OVNI_EMU_H #define OVNI_EMU_H #include "ovni.h" #include "uthash.h" #include "parson.h" #include /* Debug macros */ #ifdef ENABLE_DEBUG # define dbg(...) fprintf(stderr, __VA_ARGS__); #else # define dbg(...) #endif #define err(...) fprintf(stderr, __VA_ARGS__); /* Emulated thread runtime status */ enum ethread_state { TH_ST_UNKNOWN, TH_ST_RUNNING, TH_ST_PAUSED, TH_ST_DEAD, }; enum nosv_task_state { TASK_ST_CREATED, TASK_ST_RUNNING, TASK_ST_PAUSED, TASK_ST_DEAD, }; enum nosv_thread_ss_state { ST_NULL = 0, ST_BAD = 3, ST_SCHED_HUNGRY = 6, ST_SCHED_SERVING = 7, ST_SCHED_SUBMITTING = 8, ST_MEM_ALLOCATING = 9, }; enum nosv_thread_ss_event { EV_NULL = 0, EV_SCHED_RECV = 11, EV_SCHED_SEND = 12, EV_SCHED_SELF = 13, }; struct ovni_ethread; struct ovni_eproc; struct nosv_task { int id; int type_id; struct ovni_ethread *thread; enum nosv_task_state state; UT_hash_handle hh; }; struct nosv_task_type { int id; const char *label; UT_hash_handle hh; }; #define MAX_CHAN_STACK 128 struct ovni_chan { /* Number of states in the stack */ int n; /* Stack of states */ int stack[MAX_CHAN_STACK]; /* 1 if enabled, 0 if not. */ int enabled; /* What state should be shown in errors */ int badst; /* Punctual event: -1 if not used */ int ev; /* Emit events of this type */ int type; /* A pointer to a clock to sample the time */ int64_t *clock; /* The time of the last state or event */ int64_t t; /* Paraver row */ int row; /* 1 if channel needs flush to PRV */ int dirty; /* Where should the events be written to? */ FILE *prv; }; enum chan { /* Ovni */ CHAN_OVNI_STATE = 0, CHAN_OVNI_TID, CHAN_OVNI_PID, /* nOS-V */ CHAN_NOSV_TASK_ID, CHAN_NOSV_SS, /* Subsystem */ CHAN_MAX }; /* All PRV event types */ enum prv_type { /* Rows are CPUs */ PTC_PROC_PID = 10, PTC_THREAD_TID = 11, PTC_NTHREADS = 12, PTC_TASK_ID = 20, PTC_TASK_TYPE_ID = 21, PTC_APP_ID = 30, PTC_SUBSYSTEM = 31, /* Rows are threads */ PTT_THREAD_STATE = 60, PTT_THREAD_TID = 61, PTT_SUBSYSTEM = 62, }; /* State of each emulated thread */ struct ovni_ethread { /* Emulated thread tid */ pid_t tid; int index; int gindex; /* The process associated with this thread */ struct ovni_eproc *proc; /* Stream fd */ int stream_fd; enum ethread_state state; /* Thread stream */ struct ovni_stream *stream; /* Current cpu */ struct ovni_cpu *cpu; /* FIXME: Use a table with registrable pointers to custom data * structures */ /* nosv task */ struct nosv_task *task; /* Channels are used to output the emulator state in PRV */ struct ovni_chan chan[CHAN_MAX]; }; /* State of each emulated process */ struct ovni_eproc { int pid; int index; int gindex; int appid; /* Path of the process tracedir */ char dir[PATH_MAX]; /* Threads */ size_t nthreads; struct ovni_ethread thread[OVNI_MAX_THR]; JSON_Value *meta; /* ------ Subsystem specific data --------*/ /* TODO: Use dynamic allocation */ struct nosv_task_type *types; struct nosv_task *tasks; }; /* ------------------ emulation ---------------- */ enum ovni_cpu_type { CPU_REAL, CPU_VIRTUAL, }; enum ovni_cpu_state { CPU_ST_UNKNOWN, CPU_ST_READY, }; struct ovni_cpu { /* Logical index: 0 to ncpus - 1 */ int i; /* Physical id: as reported by lscpu(1) */ int phyid; /* Global index for all CPUs */ int gindex; enum ovni_cpu_state state; size_t last_nthreads; /* 1 if the cpu has updated is threads, 0 if not */ int updated; /* The threads the cpu is currently running */ size_t nthreads; struct ovni_ethread *thread[OVNI_MAX_THR]; }; /* ----------------------- trace ------------------------ */ /* State of each loom on post-process */ struct ovni_loom { size_t nprocs; char hostname[OVNI_MAX_HOSTNAME]; int max_ncpus; int max_phyid; int ncpus; int offset_ncpus; struct ovni_cpu cpu[OVNI_MAX_CPU]; int64_t clock_offset; /* Virtual CPU */ struct ovni_cpu vcpu; struct ovni_eproc proc[OVNI_MAX_PROC]; /* Keep a list of updated cpus */ int nupdated_cpus; struct ovni_cpu *updated_cpu[OVNI_MAX_CPU]; }; #define MAX_VIRTUAL_EVENTS 16 struct ovni_trace { int nlooms; struct ovni_loom loom[OVNI_MAX_LOOM]; /* Index of next virtual event */ int ivirtual; /* Number of virtual events stored */ int nvirtual; /* The virtual events are generated by the emulator */ struct ovni_ev *virtual_events; int nstreams; struct ovni_stream *stream; }; struct ovni_stream { uint8_t *buf; size_t size; size_t offset; int tid; int thread; int proc; int loom; int loaded; int active; struct ovni_ev *cur_ev; uint64_t lastclock; int64_t clock_offset; }; struct ovni_emu { struct ovni_trace trace; struct ovni_stream *cur_stream; struct ovni_ev *cur_ev; struct ovni_loom *cur_loom; struct ovni_eproc *cur_proc; struct ovni_ethread *cur_thread; struct nosv_task *cur_task; int64_t firstclock; int64_t lastclock; int64_t delta_time; FILE *prv_thread; FILE *prv_cpu; FILE *pcf_thread; FILE *pcf_cpu; char *clock_offset_file; char *tracedir; /* Total counters */ int total_thread; int total_proc; int total_cpus; }; /* Emulator function declaration */ void emu_emit(struct ovni_emu *emu); void hook_pre_ovni(struct ovni_emu *emu); void hook_emit_ovni(struct ovni_emu *emu); void hook_post_ovni(struct ovni_emu *emu); void hook_pre_nosv(struct ovni_emu *emu); void hook_emit_nosv(struct ovni_emu *emu); void hook_post_nosv(struct ovni_emu *emu); void hook_pre_nosv_ss(struct ovni_emu *emu); void hook_emit_nosv_ss(struct ovni_emu *emu); void hook_post_nosv_ss(struct ovni_emu *emu); struct ovni_cpu *emu_get_cpu(struct ovni_loom *loom, int cpuid); struct ovni_ethread *emu_get_thread(struct ovni_eproc *proc, int tid); void emu_emit_prv(struct ovni_emu *emu, int type, int val); void emu_virtual_ev(struct ovni_emu *emu, char *mcv); #endif /* OVNI_EMU_H */