#include "vserver.h"
#include "planetlab.h"
+#ifndef VC_NXC_RAW_SOCKET
+# define VC_NXC_RAW_SOCKET 0x00000200ull
+#endif
+#ifndef VC_NXC_RAW_SEND
+# define VC_NXC_RAW_SEND 0x00000400ull
+#endif
+#ifndef VC_NXF_LBACK_ALLOW
+# define VC_NXF_LBACK_ALLOW 0x00000400ull
+#endif
+
static int
create_context(xid_t ctx, uint64_t bcaps)
{
- struct vc_ctx_caps vc_caps;
+ struct vc_ctx_caps vc_caps;
struct vc_net_flags vc_nf;
+ struct vc_net_caps vc_ncaps;
/* Create network context */
if (vc_net_create(ctx) == VC_NOCTX) {
if (errno == EEXIST)
- goto process;
+ goto tag;
return -1;
}
/* Make the network context persistent */
- vc_nf.mask = vc_nf.flagword = VC_NXF_PERSISTENT;
+ vc_nf.mask = vc_nf.flagword = VC_NXF_PERSISTENT | VC_NXF_LBACK_ALLOW;
if (vc_set_nflags(ctx, &vc_nf))
return -1;
+ /* Give it raw sockets capabilities */
+ vc_ncaps.ncaps = vc_ncaps.cmask = VC_NXC_RAW_ICMP | VC_NXC_RAW_SOCKET;
+ if (vc_set_ncaps(ctx, &vc_ncaps))
+ return -1;
+
+tag:
+ /* Create tag context */
+ if (vc_tag_create(ctx) == VC_NOCTX)
+ return -1;
+
process:
/*
* Create context info - this sets the STATE_SETUP and STATE_INIT flags.
if (vc_set_ccaps(ctx, &vc_caps))
return -1;
- if (pl_setsched(ctx, 1, 0) < 0) {
+ if (pl_setsched(ctx, 0, 1) < 0) {
PERROR("pl_setsched(%u)", ctx);
exit(1);
}
int retry_count = 0;
int net_migrated = 0;
- pl_set_ulimits(slr);
+ if (pl_set_ulimits(slr) != 0)
+ return -1;
for (;;)
{
migrate:
if (net_migrated || !vc_net_migrate(ctx))
{
- if (!vc_ctx_migrate(ctx, 0))
+ if (!vc_tag_migrate(ctx) && !vc_ctx_migrate(ctx, 0))
break; /* done */
net_migrated = 1;
}
while (0)
int
-pl_setsched(xid_t ctx, uint32_t cpu_share, uint32_t cpu_sched_flags)
+pl_setsched(xid_t ctx, uint32_t cpu_min, uint32_t cpu_share)
{
struct vc_set_sched vc_sched;
struct vc_ctx_flags vc_flags;
- uint32_t new_flags;
vc_sched.set_mask = (VC_VXSM_FILL_RATE | VC_VXSM_INTERVAL | VC_VXSM_TOKENS |
VC_VXSM_TOKENS_MIN | VC_VXSM_TOKENS_MAX | VC_VXSM_MSEC |
- VC_VXSM_FILL_RATE2 | VC_VXSM_INTERVAL2 | VC_VXSM_FORCE |
- VC_VXSM_IDLE_TIME);
- vc_sched.fill_rate = 0;
- vc_sched.fill_rate2 = cpu_share; /* tokens accumulated per interval */
- vc_sched.interval = vc_sched.interval2 = 1000; /* milliseconds */
+ VC_VXSM_FILL_RATE2 | VC_VXSM_INTERVAL2 | VC_VXSM_FORCE);
+ vc_sched.fill_rate = cpu_min; /* percent reserved */
+ vc_sched.interval = 100;
+ vc_sched.fill_rate2 = cpu_share; /* best-effort fair share of unreserved */
+ vc_sched.interval2 = 1000; /* milliseconds */
vc_sched.tokens = 100; /* initial allocation of tokens */
vc_sched.tokens_min = 50; /* need this many tokens to run */
vc_sched.tokens_max = 100; /* max accumulated number of tokens */
- if (cpu_share == (uint32_t)VC_LIM_KEEP)
- vc_sched.set_mask &= ~(VC_VXSM_FILL_RATE|VC_VXSM_FILL_RATE2);
-
- /* guaranteed CPU corresponds to SCHED_SHARE flag being cleared */
- if (cpu_sched_flags & VS_SCHED_CPU_GUARANTEED) {
- new_flags = 0;
- vc_sched.fill_rate = vc_sched.fill_rate2;
+ if (cpu_share) {
+ if (cpu_share == (uint32_t)VC_LIM_KEEP)
+ vc_sched.set_mask &= ~(VC_VXSM_FILL_RATE|VC_VXSM_FILL_RATE2);
+ else
+ vc_sched.set_mask |= VC_VXSM_IDLE_TIME;
}
- else
- new_flags = VC_VXF_SCHED_SHARE;
VC_SYSCALL(vc_set_sched(ctx, &vc_sched));
vc_flags.mask = VC_VXF_SCHED_FLAGS;
- vc_flags.flagword = new_flags | VC_VXF_SCHED_HARD;
+ vc_flags.flagword = VC_VXF_SCHED_HARD;
VC_SYSCALL(vc_set_cflags(ctx, &vc_flags));
return 0;
}
+enum {
+ TYPE_LONG = 1,
+ TYPE_PERS = 2,
+};
+
struct pl_resources {
char *name;
- unsigned long long *limit;
+ unsigned type;
+ union {
+ unsigned long long *limit;
+ unsigned long int *personality;
+ };
};
#define WHITESPACE(buffer,index,len) \
char *conf = (char *)malloc(len + strlen("rlimits/openfd.hard"));
struct pl_resources *r;
struct pl_resources sliver_list[] = {
- {"sched/fill-rate2", &slr->vs_cpu},
+ {"sched/fill-rate2", TYPE_LONG, &slr->vs_cpu},
- {"rlimits/nproc.hard", &slr->vs_nproc.hard},
- {"rlimits/nproc.soft", &slr->vs_nproc.soft},
- {"rlimits/nproc.min", &slr->vs_nproc.min},
+ {"rlimits/nproc.hard", TYPE_LONG, &slr->vs_nproc.hard},
+ {"rlimits/nproc.soft", TYPE_LONG, &slr->vs_nproc.soft},
+ {"rlimits/nproc.min", TYPE_LONG, &slr->vs_nproc.min},
- {"rlimits/rss.hard", &slr->vs_rss.hard},
- {"rlimits/rss.soft", &slr->vs_rss.soft},
- {"rlimits/rss.min", &slr->vs_rss.min},
+ {"rlimits/rss.hard", TYPE_LONG, &slr->vs_rss.hard},
+ {"rlimits/rss.soft", TYPE_LONG, &slr->vs_rss.soft},
+ {"rlimits/rss.min", TYPE_LONG, &slr->vs_rss.min},
- {"rlimits/as.hard", &slr->vs_as.hard},
- {"rlimits/as.soft", &slr->vs_as.soft},
- {"rlimits/as.min", &slr->vs_as.min},
+ {"rlimits/as.hard", TYPE_LONG, &slr->vs_as.hard},
+ {"rlimits/as.soft", TYPE_LONG, &slr->vs_as.soft},
+ {"rlimits/as.min", TYPE_LONG, &slr->vs_as.min},
- {"rlimits/openfd.hard", &slr->vs_openfd.hard},
- {"rlimits/openfd.soft", &slr->vs_openfd.soft},
- {"rlimits/openfd.min", &slr->vs_openfd.min},
+ {"rlimits/openfd.hard", TYPE_LONG, &slr->vs_openfd.hard},
+ {"rlimits/openfd.soft", TYPE_LONG, &slr->vs_openfd.soft},
+ {"rlimits/openfd.min", TYPE_LONG, &slr->vs_openfd.min},
+
+ {"personality", TYPE_PERS, &slr->personality},
{0,0}
};
slr->vs_openfd.soft = VC_LIM_KEEP;
slr->vs_openfd.min = VC_LIM_KEEP;
+ slr->personality = 0;
+
cwd = open(".", O_RDONLY);
if (cwd == -1) {
perror("cannot get a handle on .");
fb = fopen(r->name, "r");
if (fb == NULL)
continue;
- if (fgets(buf, sizeof(buf), fb) != NULL && isdigit(*buf))
- *r->limit = atoi(buf);
+ if (fgets(buf, sizeof(buf), fb) != NULL) {
+ len=strlen(buf);
+ /* remove trailing newline */
+ if (buf[len-1] == '\n') {
+ buf[len-1]='\0';
+ len --;
+ }
+ if ( (r->type == TYPE_LONG) && isdigit(*buf)) {
+ *r->limit = atoi(buf);
+ } else if ( (r->type == TYPE_PERS) && isalpha(*buf)) {
+ unsigned long int res;
+ res = vc_str2personalitytype(buf,len);
+ if (res != VC_BAD_PERSONALITY) {
+ *r->personality = res;
+ }
+ }
+ }
+
fclose(fb);
}
if (vcr->hard < vcr->min)
break;
case 0:
- lim->rlim_cur = vcr->hard;
+ lim->rlim_max = vcr->hard;
adjusted = 1;
}
}
setrlimit(resource, &lim);
}
-void
+static inline int
+set_personality(unsigned long int personality_arg)
+{
+ if (personality_arg == 0)
+ return 0;
+ if (personality(personality_arg) < 0) {
+ return -1;
+ }
+ return 0;
+}
+
+int
pl_set_ulimits(const struct sliver_resources *slr)
{
if (!slr)
- return;
+ return 0;
set_one_ulimit(RLIMIT_RSS, &slr->vs_rss);
set_one_ulimit(RLIMIT_AS, &slr->vs_as);
set_one_ulimit(RLIMIT_NPROC, &slr->vs_nproc);
set_one_ulimit(RLIMIT_NOFILE, &slr->vs_openfd);
+ return set_personality(slr->personality);
}