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author | Rusty Russell <rusty@rustcorp.com.au> | 2007-07-26 10:41:03 -0700 |
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committer | Linus Torvalds <torvalds@woody.linux-foundation.org> | 2007-07-26 11:35:17 -0700 |
commit | e2c9784325490c878b7f69aeec1bed98b288bd97 (patch) | |
tree | d474007607c713a30db818107ca0581269f059a2 /include/linux/lguest_launcher.h | |
parent | b2b47c214f4e85ce3968120d42e8b18eccb4f4e3 (diff) | |
download | lwn-e2c9784325490c878b7f69aeec1bed98b288bd97.tar.gz lwn-e2c9784325490c878b7f69aeec1bed98b288bd97.zip |
lguest: documentation III: Drivers
Documentation: The Drivers
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
Diffstat (limited to 'include/linux/lguest_launcher.h')
-rw-r--r-- | include/linux/lguest_launcher.h | 60 |
1 files changed, 57 insertions, 3 deletions
diff --git a/include/linux/lguest_launcher.h b/include/linux/lguest_launcher.h index 0ba414a40c80..641670579446 100644 --- a/include/linux/lguest_launcher.h +++ b/include/linux/lguest_launcher.h @@ -9,14 +9,45 @@ /* How many devices? Assume each one wants up to two dma arrays per device. */ #define LGUEST_MAX_DEVICES (LGUEST_MAX_DMA/2) +/*D:200 + * Lguest I/O + * + * The lguest I/O mechanism is the only way Guests can talk to devices. There + * are two hypercalls involved: SEND_DMA for output and BIND_DMA for input. In + * each case, "struct lguest_dma" describes the buffer: this contains 16 + * addr/len pairs, and if there are fewer buffer elements the len array is + * terminated with a 0. + * + * I/O is organized by keys: BIND_DMA attaches buffers to a particular key, and + * SEND_DMA transfers to buffers bound to particular key. By convention, keys + * correspond to a physical address within the device's page. This means that + * devices will never accidentally end up with the same keys, and allows the + * Host use The Futex Trick (as we'll see later in our journey). + * + * SEND_DMA simply indicates a key to send to, and the physical address of the + * "struct lguest_dma" to send. The Host will write the number of bytes + * transferred into the "struct lguest_dma"'s used_len member. + * + * BIND_DMA indicates a key to bind to, a pointer to an array of "struct + * lguest_dma"s ready for receiving, the size of that array, and an interrupt + * to trigger when data is received. The Host will only allow transfers into + * buffers with a used_len of zero: it then sets used_len to the number of + * bytes transferred and triggers the interrupt for the Guest to process the + * new input. */ struct lguest_dma { - /* 0 if free to be used, filled by hypervisor. */ + /* 0 if free to be used, filled by the Host. */ u32 used_len; unsigned long addr[LGUEST_MAX_DMA_SECTIONS]; u16 len[LGUEST_MAX_DMA_SECTIONS]; }; +/*:*/ +/*D:460 This is the layout of a block device memory page. The Launcher sets up + * the num_sectors initially to tell the Guest the size of the disk. The Guest + * puts the type, sector and length of the request in the first three fields, + * then DMAs to the Host. The Host processes the request, sets up the result, + * then DMAs back to the Guest. */ struct lguest_block_page { /* 0 is a read, 1 is a write. */ @@ -28,27 +59,47 @@ struct lguest_block_page u32 num_sectors; /* Disk length = num_sectors * 512 */ }; -/* There is a shared page of these. */ +/*D:520 The network device is basically a memory page where all the Guests on + * the network publish their MAC (ethernet) addresses: it's an array of "struct + * lguest_net": */ struct lguest_net { /* Simply the mac address (with multicast bit meaning promisc). */ unsigned char mac[6]; }; +/*:*/ /* Where the Host expects the Guest to SEND_DMA console output to. */ #define LGUEST_CONSOLE_DMA_KEY 0 -/* We have a page of these descriptors in the lguest_device page. */ +/*D:010 + * Drivers + * + * The Guest needs devices to do anything useful. Since we don't let it touch + * real devices (think of the damage it could do!) we provide virtual devices. + * We could emulate a PCI bus with various devices on it, but that is a fairly + * complex burden for the Host and suboptimal for the Guest, so we have our own + * "lguest" bus and simple drivers. + * + * Devices are described by an array of LGUEST_MAX_DEVICES of these structs, + * placed by the Launcher just above the top of physical memory: + */ struct lguest_device_desc { + /* The device type: console, network, disk etc. */ u16 type; #define LGUEST_DEVICE_T_CONSOLE 1 #define LGUEST_DEVICE_T_NET 2 #define LGUEST_DEVICE_T_BLOCK 3 + /* The specific features of this device: these depends on device type + * except for LGUEST_DEVICE_F_RANDOMNESS. */ u16 features; #define LGUEST_NET_F_NOCSUM 0x4000 /* Don't bother checksumming */ #define LGUEST_DEVICE_F_RANDOMNESS 0x8000 /* IRQ is fairly random */ + /* This is how the Guest reports status of the device: the Host can set + * LGUEST_DEVICE_S_REMOVED to indicate removal, but the rest are only + * ever manipulated by the Guest, and only ever set. */ u16 status; /* 256 and above are device specific. */ #define LGUEST_DEVICE_S_ACKNOWLEDGE 1 /* We have seen device. */ @@ -58,9 +109,12 @@ struct lguest_device_desc { #define LGUEST_DEVICE_S_REMOVED_ACK 16 /* Driver has been told. */ #define LGUEST_DEVICE_S_FAILED 128 /* Something actually failed */ + /* Each device exists somewhere in Guest physical memory, over some + * number of pages. */ u16 num_pages; u32 pfn; }; +/*:*/ /* Write command first word is a request. */ enum lguest_req |