On Mon, 24 Feb 2020 13:30:39 +0100 SeongJae Park <sjpark@xxxxxxxxxx> wrote: > From: SeongJae Park <sjpark@xxxxxxxxx> > > This commit implements the recording feature of DAMON. If this feature > is enabled, DAMON writes the monitored access patterns in its binary > format into a file which specified by the user. This is already able to > be implemented by each user using the callbacks. However, as the > recording is expected to be used widely, this commit implements the > feature in the DAMON, for more convenience and efficiency. > > Signed-off-by: SeongJae Park <sjpark@xxxxxxxxx> I guess this work whilst you are still developing, but I'm not convinced writing to a file should be a standard feature... > --- > mm/damon.c | 126 +++++++++++++++++++++++++++++++++++++++++++++++++++-- > 1 file changed, 123 insertions(+), 3 deletions(-) > > diff --git a/mm/damon.c b/mm/damon.c > index 554720778e8a..a7edb2dfa700 100644 > --- a/mm/damon.c > +++ b/mm/damon.c > @@ -76,6 +76,11 @@ struct damon_ctx { > struct timespec64 last_aggregation; > struct timespec64 last_regions_update; > > + unsigned char *rbuf; > + unsigned int rbuf_len; > + unsigned int rbuf_offset; > + char *rfile_path; > + > struct task_struct *kdamond; > bool kdamond_stop; > spinlock_t kdamond_lock; > @@ -89,6 +94,8 @@ struct damon_ctx { > void (*aggregate_cb)(struct damon_ctx *context); > }; > > +#define MAX_RFILE_PATH_LEN 256 > + > /* Get a random number in [l, r) */ > #define damon_rand(ctx, l, r) (l + prandom_u32_state(&ctx->rndseed) % (r - l)) > > @@ -550,16 +557,81 @@ static bool kdamond_aggregate_interval_passed(struct damon_ctx *ctx) > } > > /* > - * Reset the aggregated monitoring results > + * Flush the content in the result buffer to the result file > + */ > +static void damon_flush_rbuffer(struct damon_ctx *ctx) > +{ > + ssize_t sz; > + loff_t pos; > + struct file *rfile; > + > + while (ctx->rbuf_offset) { > + pos = 0; > + rfile = filp_open(ctx->rfile_path, O_CREAT | O_RDWR | O_APPEND, > + 0644); > + if (IS_ERR(rfile)) { > + pr_err("Cannot open the result file %s\n", > + ctx->rfile_path); > + return; > + } > + > + sz = kernel_write(rfile, ctx->rbuf, ctx->rbuf_offset, &pos); > + filp_close(rfile, NULL); > + > + ctx->rbuf_offset -= sz; > + } > +} > + > +/* > + * Write a data into the result buffer > + */ > +static void damon_write_rbuf(struct damon_ctx *ctx, void *data, ssize_t size) > +{ > + if (!ctx->rbuf_len || !ctx->rbuf) > + return; > + if (ctx->rbuf_offset + size > ctx->rbuf_len) > + damon_flush_rbuffer(ctx); > + > + memcpy(&ctx->rbuf[ctx->rbuf_offset], data, size); > + ctx->rbuf_offset += size; > +} > + > +/* > + * Flush the aggregated monitoring results to the result buffer > + * > + * Stores current tracking results to the result buffer and reset 'nr_accesses' > + * of each regions. The format for the result buffer is as below: > + * > + * <time> <number of tasks> <array of task infos> > + * > + * task info: <pid> <number of regions> <array of region infos> > + * region info: <start address> <end address> <nr_accesses> > */ > static void kdamond_flush_aggregated(struct damon_ctx *c) > { > struct damon_task *t; > - struct damon_region *r; > + struct timespec64 now; > + unsigned int nr; > + > + ktime_get_coarse_ts64(&now); > + > + damon_write_rbuf(c, &now, sizeof(struct timespec64)); > + nr = nr_damon_tasks(c); > + damon_write_rbuf(c, &nr, sizeof(nr)); > > damon_for_each_task(c, t) { > - damon_for_each_region(r, t) > + struct damon_region *r; > + > + damon_write_rbuf(c, &t->pid, sizeof(t->pid)); > + nr = nr_damon_regions(t); > + damon_write_rbuf(c, &nr, sizeof(nr)); > + damon_for_each_region(r, t) { > + damon_write_rbuf(c, &r->vm_start, sizeof(r->vm_start)); > + damon_write_rbuf(c, &r->vm_end, sizeof(r->vm_end)); > + damon_write_rbuf(c, &r->nr_accesses, > + sizeof(r->nr_accesses)); > r->nr_accesses = 0; > + } > } > } > > @@ -834,6 +906,7 @@ static int kdamond_fn(void *data) > > usleep_range(ctx->sample_interval, ctx->sample_interval + 1); > } > + damon_flush_rbuffer(ctx); > damon_for_each_task(ctx, t) { > damon_for_each_region_safe(r, next, t) > damon_destroy_region(r); > @@ -912,6 +985,53 @@ static int damon_set_pids(struct damon_ctx *ctx, > return 0; > } > > +/* > + * Set attributes for the recording > + * > + * ctx target kdamond context > + * rbuf_len length of the result buffer > + * rfile_path path to the monitor result files > + * > + * Setting 'rbuf_len' 0 disables recording. > + * > + * This function should not be called while the kdamond is running. > + * > + * Returns 0 on success, negative error code otherwise. > + */ > +static int damon_set_recording(struct damon_ctx *ctx, > + unsigned int rbuf_len, char *rfile_path) > +{ > + size_t rfile_path_len; > + > + if (rbuf_len > 4 * 1024 * 1024) { > + pr_err("too long (>%d) result buffer length\n", > + 4 * 1024 * 1024); > + return -EINVAL; > + } > + rfile_path_len = strnlen(rfile_path, MAX_RFILE_PATH_LEN); > + if (rfile_path_len >= MAX_RFILE_PATH_LEN) { > + pr_err("too long (>%d) result file path %s\n", > + MAX_RFILE_PATH_LEN, rfile_path); > + return -EINVAL; > + } > + ctx->rbuf_len = rbuf_len; > + kfree(ctx->rbuf); > + kfree(ctx->rfile_path); > + ctx->rfile_path = NULL; > + if (!rbuf_len) { > + ctx->rbuf = NULL; > + } else { > + ctx->rbuf = kvmalloc(rbuf_len, GFP_KERNEL); > + if (!ctx->rbuf) > + return -ENOMEM; > + } > + ctx->rfile_path = kmalloc(rfile_path_len + 1, GFP_KERNEL); > + if (!ctx->rfile_path) > + return -ENOMEM; > + strncpy(ctx->rfile_path, rfile_path, rfile_path_len + 1); > + return 0; > +} > + > /* > * Set attributes for the monitoring > *