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authorRusty Russell <rusty@rustcorp.com.au>2009-07-30 16:03:45 -0600
committerRusty Russell <rusty@rustcorp.com.au>2009-07-30 16:03:46 +0930
commita91d74a3c4de8115295ee87350c13a329164aaaf (patch)
tree02c862fccc9abedf7fc354061e69c4b5fbcce06d /Documentation
parent2e04ef76916d1e29a077ea9d0f2003c8fd86724d (diff)
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lguest: update commentry
Every so often, after code shuffles, I need to go through and unbitrot the Lguest Journey (see drivers/lguest/README). Since we now use RCU in a simple form in one place I took the opportunity to expand that explanation. Signed-off-by: Rusty Russell <rusty@rustcorp.com.au> Cc: Ingo Molnar <mingo@redhat.com> Cc: Paul McKenney <paulmck@linux.vnet.ibm.com>
Diffstat (limited to 'Documentation')
-rw-r--r--Documentation/lguest/lguest.c184
1 files changed, 139 insertions, 45 deletions
diff --git a/Documentation/lguest/lguest.c b/Documentation/lguest/lguest.c
index aa66a52b73e9..45163651b519 100644
--- a/Documentation/lguest/lguest.c
+++ b/Documentation/lguest/lguest.c
@@ -49,7 +49,7 @@
#include "linux/virtio_ring.h"
#include "asm/bootparam.h"
/*L:110
- * We can ignore the 39 include files we need for this program, but I do want
+ * We can ignore the 42 include files we need for this program, but I do want
* to draw attention to the use of kernel-style types.
*
* As Linus said, "C is a Spartan language, and so should your naming be." I
@@ -305,6 +305,11 @@ static void *map_zeroed_pages(unsigned int num)
PROT_READ|PROT_WRITE|PROT_EXEC, MAP_PRIVATE, fd, 0);
if (addr == MAP_FAILED)
err(1, "Mmaping %u pages of /dev/zero", num);
+
+ /*
+ * One neat mmap feature is that you can close the fd, and it
+ * stays mapped.
+ */
close(fd);
return addr;
@@ -557,7 +562,7 @@ static void tell_kernel(unsigned long start)
}
/*:*/
-/*
+/*L:200
* Device Handling.
*
* When the Guest gives us a buffer, it sends an array of addresses and sizes.
@@ -608,7 +613,10 @@ static unsigned next_desc(struct vring_desc *desc,
return next;
}
-/* This actually sends the interrupt for this virtqueue */
+/*
+ * This actually sends the interrupt for this virtqueue, if we've used a
+ * buffer.
+ */
static void trigger_irq(struct virtqueue *vq)
{
unsigned long buf[] = { LHREQ_IRQ, vq->config.irq };
@@ -629,12 +637,12 @@ static void trigger_irq(struct virtqueue *vq)
}
/*
- * This looks in the virtqueue and for the first available buffer, and converts
+ * This looks in the virtqueue for the first available buffer, and converts
* it to an iovec for convenient access. Since descriptors consist of some
* number of output then some number of input descriptors, it's actually two
* iovecs, but we pack them into one and note how many of each there were.
*
- * This function returns the descriptor number found.
+ * This function waits if necessary, and returns the descriptor number found.
*/
static unsigned wait_for_vq_desc(struct virtqueue *vq,
struct iovec iov[],
@@ -644,10 +652,14 @@ static unsigned wait_for_vq_desc(struct virtqueue *vq,
struct vring_desc *desc;
u16 last_avail = lg_last_avail(vq);
+ /* There's nothing available? */
while (last_avail == vq->vring.avail->idx) {
u64 event;
- /* OK, tell Guest about progress up to now. */
+ /*
+ * Since we're about to sleep, now is a good time to tell the
+ * Guest about what we've used up to now.
+ */
trigger_irq(vq);
/* OK, now we need to know about added descriptors. */
@@ -734,8 +746,9 @@ static unsigned wait_for_vq_desc(struct virtqueue *vq,
}
/*
- * After we've used one of their buffers, we tell them about it. We'll then
- * want to send them an interrupt, using trigger_irq().
+ * After we've used one of their buffers, we tell the Guest about it. Sometime
+ * later we'll want to send them an interrupt using trigger_irq(); note that
+ * wait_for_vq_desc() does that for us if it has to wait.
*/
static void add_used(struct virtqueue *vq, unsigned int head, int len)
{
@@ -782,12 +795,12 @@ static void console_input(struct virtqueue *vq)
struct console_abort *abort = vq->dev->priv;
struct iovec iov[vq->vring.num];
- /* Make sure there's a descriptor waiting. */
+ /* Make sure there's a descriptor available. */
head = wait_for_vq_desc(vq, iov, &out_num, &in_num);
if (out_num)
errx(1, "Output buffers in console in queue?");
- /* Read it in. */
+ /* Read into it. This is where we usually wait. */
len = readv(STDIN_FILENO, iov, in_num);
if (len <= 0) {
/* Ran out of input? */
@@ -800,6 +813,7 @@ static void console_input(struct virtqueue *vq)
pause();
}
+ /* Tell the Guest we used a buffer. */
add_used_and_trigger(vq, head, len);
/*
@@ -834,15 +848,23 @@ static void console_output(struct virtqueue *vq)
unsigned int head, out, in;
struct iovec iov[vq->vring.num];
+ /* We usually wait in here, for the Guest to give us something. */
head = wait_for_vq_desc(vq, iov, &out, &in);
if (in)
errx(1, "Input buffers in console output queue?");
+
+ /* writev can return a partial write, so we loop here. */
while (!iov_empty(iov, out)) {
int len = writev(STDOUT_FILENO, iov, out);
if (len <= 0)
err(1, "Write to stdout gave %i", len);
iov_consume(iov, out, len);
}
+
+ /*
+ * We're finished with that buffer: if we're going to sleep,
+ * wait_for_vq_desc() will prod the Guest with an interrupt.
+ */
add_used(vq, head, 0);
}
@@ -862,15 +884,30 @@ static void net_output(struct virtqueue *vq)
unsigned int head, out, in;
struct iovec iov[vq->vring.num];
+ /* We usually wait in here for the Guest to give us a packet. */
head = wait_for_vq_desc(vq, iov, &out, &in);
if (in)
errx(1, "Input buffers in net output queue?");
+ /*
+ * Send the whole thing through to /dev/net/tun. It expects the exact
+ * same format: what a coincidence!
+ */
if (writev(net_info->tunfd, iov, out) < 0)
errx(1, "Write to tun failed?");
+
+ /*
+ * Done with that one; wait_for_vq_desc() will send the interrupt if
+ * all packets are processed.
+ */
add_used(vq, head, 0);
}
-/* Will reading from this file descriptor block? */
+/*
+ * Handling network input is a bit trickier, because I've tried to optimize it.
+ *
+ * First we have a helper routine which tells is if from this file descriptor
+ * (ie. the /dev/net/tun device) will block:
+ */
static bool will_block(int fd)
{
fd_set fdset;
@@ -880,7 +917,11 @@ static bool will_block(int fd)
return select(fd+1, &fdset, NULL, NULL, &zero) != 1;
}
-/* This handles packets coming in from the tun device to our Guest. */
+/*
+ * This handles packets coming in from the tun device to our Guest. Like all
+ * service routines, it gets called again as soon as it returns, so you don't
+ * see a while(1) loop here.
+ */
static void net_input(struct virtqueue *vq)
{
int len;
@@ -888,21 +929,38 @@ static void net_input(struct virtqueue *vq)
struct iovec iov[vq->vring.num];
struct net_info *net_info = vq->dev->priv;
+ /*
+ * Get a descriptor to write an incoming packet into. This will also
+ * send an interrupt if they're out of descriptors.
+ */
head = wait_for_vq_desc(vq, iov, &out, &in);
if (out)
errx(1, "Output buffers in net input queue?");
- /* Deliver interrupt now, since we're about to sleep. */
+ /*
+ * If it looks like we'll block reading from the tun device, send them
+ * an interrupt.
+ */
if (vq->pending_used && will_block(net_info->tunfd))
trigger_irq(vq);
+ /*
+ * Read in the packet. This is where we normally wait (when there's no
+ * incoming network traffic).
+ */
len = readv(net_info->tunfd, iov, in);
if (len <= 0)
err(1, "Failed to read from tun.");
+
+ /*
+ * Mark that packet buffer as used, but don't interrupt here. We want
+ * to wait until we've done as much work as we can.
+ */
add_used(vq, head, len);
}
+/*:*/
-/* This is the helper to create threads. */
+/* This is the helper to create threads: run the service routine in a loop. */
static int do_thread(void *_vq)
{
struct virtqueue *vq = _vq;
@@ -950,11 +1008,14 @@ static void reset_device(struct device *dev)
signal(SIGCHLD, (void *)kill_launcher);
}
+/*L:216
+ * This actually creates the thread which services the virtqueue for a device.
+ */
static void create_thread(struct virtqueue *vq)
{
/*
- * Create stack for thread and run it. Since the stack grows upwards,
- * we point the stack pointer to the end of this region.
+ * Create stack for thread. Since the stack grows upwards, we point
+ * the stack pointer to the end of this region.
*/
char *stack = malloc(32768);
unsigned long args[] = { LHREQ_EVENTFD,
@@ -966,17 +1027,22 @@ static void create_thread(struct virtqueue *vq)
err(1, "Creating eventfd");
args[2] = vq->eventfd;
- /* Attach an eventfd to this virtqueue: it will go off
- * when the Guest does an LHCALL_NOTIFY for this vq. */
+ /*
+ * Attach an eventfd to this virtqueue: it will go off when the Guest
+ * does an LHCALL_NOTIFY for this vq.
+ */
if (write(lguest_fd, &args, sizeof(args)) != 0)
err(1, "Attaching eventfd");
- /* CLONE_VM: because it has to access the Guest memory, and
- * SIGCHLD so we get a signal if it dies. */
+ /*
+ * CLONE_VM: because it has to access the Guest memory, and SIGCHLD so
+ * we get a signal if it dies.
+ */
vq->thread = clone(do_thread, stack + 32768, CLONE_VM | SIGCHLD, vq);
if (vq->thread == (pid_t)-1)
err(1, "Creating clone");
- /* We close our local copy, now the child has it. */
+
+ /* We close our local copy now the child has it. */
close(vq->eventfd);
}
@@ -1028,7 +1094,10 @@ static void update_device_status(struct device *dev)
}
}
-/* This is the generic routine we call when the Guest uses LHCALL_NOTIFY. */
+/*L:215
+ * This is the generic routine we call when the Guest uses LHCALL_NOTIFY. In
+ * particular, it's used to notify us of device status changes during boot.
+ */
static void handle_output(unsigned long addr)
{
struct device *i;
@@ -1037,18 +1106,32 @@ static void handle_output(unsigned long addr)
for (i = devices.dev; i; i = i->next) {
struct virtqueue *vq;
- /* Notifications to device descriptors update device status. */
+ /*
+ * Notifications to device descriptors mean they updated the
+ * device status.
+ */
if (from_guest_phys(addr) == i->desc) {
update_device_status(i);
return;
}
- /* Devices *can* be used before status is set to DRIVER_OK. */
+ /*
+ * Devices *can* be used before status is set to DRIVER_OK.
+ * The original plan was that they would never do this: they
+ * would always finish setting up their status bits before
+ * actually touching the virtqueues. In practice, we allowed
+ * them to, and they do (eg. the disk probes for partition
+ * tables as part of initialization).
+ *
+ * If we see this, we start the device: once it's running, we
+ * expect the device to catch all the notifications.
+ */
for (vq = i->vq; vq; vq = vq->next) {
if (addr != vq->config.pfn*getpagesize())
continue;
if (i->running)
errx(1, "Notification on running %s", i->name);
+ /* This just calls create_thread() for each virtqueue */
start_device(i);
return;
}
@@ -1132,6 +1215,11 @@ static void add_virtqueue(struct device *dev, unsigned int num_descs,
vq->next = NULL;
vq->last_avail_idx = 0;
vq->dev = dev;
+
+ /*
+ * This is the routine the service thread will run, and its Process ID
+ * once it's running.
+ */
vq->service = service;
vq->thread = (pid_t)-1;
@@ -1202,7 +1290,8 @@ static void set_config(struct device *dev, unsigned len, const void *conf)
/*
* This routine does all the creation and setup of a new device, including
- * calling new_dev_desc() to allocate the descriptor and device memory.
+ * calling new_dev_desc() to allocate the descriptor and device memory. We
+ * don't actually start the service threads until later.
*
* See what I mean about userspace being boring?
*/
@@ -1478,19 +1567,7 @@ static void setup_tun_net(char *arg)
verbose("device %u: tun %s: %s\n",
devices.device_num, tapif, arg);
}
-
-/*
- * Our block (disk) device should be really simple: the Guest asks for a block
- * number and we read or write that position in the file. Unfortunately, that
- * was amazingly slow: the Guest waits until the read is finished before
- * running anything else, even if it could have been doing useful work.
- *
- * We could use async I/O, except it's reputed to suck so hard that characters
- * actually go missing from your code when you try to use it.
- *
- * So this was one reason why lguest now does all virtqueue servicing in
- * separate threads: it's more efficient and more like a real device.
- */
+/*:*/
/* This hangs off device->priv. */
struct vblk_info
@@ -1512,8 +1589,16 @@ struct vblk_info
/*L:210
* The Disk
*
- * Remember that the block device is handled by a separate I/O thread. We head
- * straight into the core of that thread here:
+ * The disk only has one virtqueue, so it only has one thread. It is really
+ * simple: the Guest asks for a block number and we read or write that position
+ * in the file.
+ *
+ * Before we serviced each virtqueue in a separate thread, that was unacceptably
+ * slow: the Guest waits until the read is finished before running anything
+ * else, even if it could have been doing useful work.
+ *
+ * We could have used async I/O, except it's reputed to suck so hard that
+ * characters actually go missing from your code when you try to use it.
*/
static void blk_request(struct virtqueue *vq)
{
@@ -1525,7 +1610,10 @@ static void blk_request(struct virtqueue *vq)
struct iovec iov[vq->vring.num];
off64_t off;
- /* Get the next request. */
+ /*
+ * Get the next request, where we normally wait. It triggers the
+ * interrupt to acknowledge previously serviced requests (if any).
+ */
head = wait_for_vq_desc(vq, iov, &out_num, &in_num);
/*
@@ -1539,6 +1627,10 @@ static void blk_request(struct virtqueue *vq)
out = convert(&iov[0], struct virtio_blk_outhdr);
in = convert(&iov[out_num+in_num-1], u8);
+ /*
+ * For historical reasons, block operations are expressed in 512 byte
+ * "sectors".
+ */
off = out->sector * 512;
/*
@@ -1614,6 +1706,7 @@ static void blk_request(struct virtqueue *vq)
if (out->type & VIRTIO_BLK_T_BARRIER)
fdatasync(vblk->fd);
+ /* Finished that request. */
add_used(vq, head, wlen);
}
@@ -1682,9 +1775,8 @@ static void rng_input(struct virtqueue *vq)
errx(1, "Output buffers in rng?");
/*
- * This is why we convert to iovecs: the readv() call uses them, and so
- * it reads straight into the Guest's buffer. We loop to make sure we
- * fill it.
+ * Just like the console write, we loop to cover the whole iovec.
+ * In this case, short reads actually happen quite a bit.
*/
while (!iov_empty(iov, in_num)) {
len = readv(rng_info->rfd, iov, in_num);
@@ -1818,7 +1910,9 @@ int main(int argc, char *argv[])
devices.lastdev = NULL;
devices.next_irq = 1;
+ /* We're CPU 0. In fact, that's the only CPU possible right now. */
cpu_id = 0;
+
/*
* We need to know how much memory so we can set up the device
* descriptor and memory pages for the devices as we parse the command
@@ -1926,7 +2020,7 @@ int main(int argc, char *argv[])
*/
tell_kernel(start);
- /* Ensure that we terminate if a child dies. */
+ /* Ensure that we terminate if a device-servicing child dies. */
signal(SIGCHLD, kill_launcher);
/* If we exit via err(), this kills all the threads, restores tty. */