| NOTE: |
| This is one of the technical documents describing a component of |
| Coda -- this document describes the client kernel-Venus interface. |
| |
| For more information: |
| http://www.coda.cs.cmu.edu |
| For user level software needed to run Coda: |
| ftp://ftp.coda.cs.cmu.edu |
| |
| To run Coda you need to get a user level cache manager for the client, |
| named Venus, as well as tools to manipulate ACLs, to log in, etc. The |
| client needs to have the Coda filesystem selected in the kernel |
| configuration. |
| |
| The server needs a user level server and at present does not depend on |
| kernel support. |
| |
| |
| |
| |
| |
| |
| |
| The Venus kernel interface |
| Peter J. Braam |
| v1.0, Nov 9, 1997 |
| |
| This document describes the communication between Venus and kernel |
| level filesystem code needed for the operation of the Coda file sys- |
| tem. This document version is meant to describe the current interface |
| (version 1.0) as well as improvements we envisage. |
| ______________________________________________________________________ |
| |
| Table of Contents |
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| 1. Introduction |
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| 2. Servicing Coda filesystem calls |
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| 3. The message layer |
| |
| 3.1 Implementation details |
| |
| 4. The interface at the call level |
| |
| 4.1 Data structures shared by the kernel and Venus |
| 4.2 The pioctl interface |
| 4.3 root |
| 4.4 lookup |
| 4.5 getattr |
| 4.6 setattr |
| 4.7 access |
| 4.8 create |
| 4.9 mkdir |
| 4.10 link |
| 4.11 symlink |
| 4.12 remove |
| 4.13 rmdir |
| 4.14 readlink |
| 4.15 open |
| 4.16 close |
| 4.17 ioctl |
| 4.18 rename |
| 4.19 readdir |
| 4.20 vget |
| 4.21 fsync |
| 4.22 inactive |
| 4.23 rdwr |
| 4.24 odymount |
| 4.25 ody_lookup |
| 4.26 ody_expand |
| 4.27 prefetch |
| 4.28 signal |
| |
| 5. The minicache and downcalls |
| |
| 5.1 INVALIDATE |
| 5.2 FLUSH |
| 5.3 PURGEUSER |
| 5.4 ZAPFILE |
| 5.5 ZAPDIR |
| 5.6 ZAPVNODE |
| 5.7 PURGEFID |
| 5.8 REPLACE |
| |
| 6. Initialization and cleanup |
| |
| 6.1 Requirements |
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| |
| ______________________________________________________________________ |
| 0wpage |
| |
| 1�1.�. I�In�nt�tr�ro�od�du�uc�ct�ti�io�on�n |
| |
| |
| |
| A key component in the Coda Distributed File System is the cache |
| manager, _�V_�e_�n_�u_�s. |
| |
| |
| When processes on a Coda enabled system access files in the Coda |
| filesystem, requests are directed at the filesystem layer in the |
| operating system. The operating system will communicate with Venus to |
| service the request for the process. Venus manages a persistent |
| client cache and makes remote procedure calls to Coda file servers and |
| related servers (such as authentication servers) to service these |
| requests it receives from the operating system. When Venus has |
| serviced a request it replies to the operating system with appropriate |
| return codes, and other data related to the request. Optionally the |
| kernel support for Coda may maintain a minicache of recently processed |
| requests to limit the number of interactions with Venus. Venus |
| possesses the facility to inform the kernel when elements from its |
| minicache are no longer valid. |
| |
| This document describes precisely this communication between the |
| kernel and Venus. The definitions of so called upcalls and downcalls |
| will be given with the format of the data they handle. We shall also |
| describe the semantic invariants resulting from the calls. |
| |
| Historically Coda was implemented in a BSD file system in Mach 2.6. |
| The interface between the kernel and Venus is very similar to the BSD |
| VFS interface. Similar functionality is provided, and the format of |
| the parameters and returned data is very similar to the BSD VFS. This |
| leads to an almost natural environment for implementing a kernel-level |
| filesystem driver for Coda in a BSD system. However, other operating |
| systems such as Linux and Windows 95 and NT have virtual filesystem |
| with different interfaces. |
| |
| To implement Coda on these systems some reverse engineering of the |
| Venus/Kernel protocol is necessary. Also it came to light that other |
| systems could profit significantly from certain small optimizations |
| and modifications to the protocol. To facilitate this work as well as |
| to make future ports easier, communication between Venus and the |
| kernel should be documented in great detail. This is the aim of this |
| document. |
| |
| 0wpage |
| |
| 2�2.�. S�Se�er�rv�vi�ic�ci�in�ng�g C�Co�od�da�a f�fi�il�le�es�sy�ys�st�te�em�m c�ca�al�ll�ls�s |
| |
| The service of a request for a Coda file system service originates in |
| a process P�P which accessing a Coda file. It makes a system call which |
| traps to the OS kernel. Examples of such calls trapping to the kernel |
| are _�r_�e_�a_�d_�, _�w_�r_�i_�t_�e_�, _�o_�p_�e_�n_�, _�c_�l_�o_�s_�e_�, _�c_�r_�e_�a_�t_�e_�, _�m_�k_�d_�i_�r_�, _�r_�m_�d_�i_�r_�, _�c_�h_�m_�o_�d in a Unix |
| context. Similar calls exist in the Win32 environment, and are named |
| _�C_�r_�e_�a_�t_�e_�F_�i_�l_�e_�, . |
| |
| Generally the operating system handles the request in a virtual |
| filesystem (VFS) layer, which is named I/O Manager in NT and IFS |
| manager in Windows 95. The VFS is responsible for partial processing |
| of the request and for locating the specific filesystem(s) which will |
| service parts of the request. Usually the information in the path |
| assists in locating the correct FS drivers. Sometimes after extensive |
| pre-processing, the VFS starts invoking exported routines in the FS |
| driver. This is the point where the FS specific processing of the |
| request starts, and here the Coda specific kernel code comes into |
| play. |
| |
| The FS layer for Coda must expose and implement several interfaces. |
| First and foremost the VFS must be able to make all necessary calls to |
| the Coda FS layer, so the Coda FS driver must expose the VFS interface |
| as applicable in the operating system. These differ very significantly |
| among operating systems, but share features such as facilities to |
| read/write and create and remove objects. The Coda FS layer services |
| such VFS requests by invoking one or more well defined services |
| offered by the cache manager Venus. When the replies from Venus have |
| come back to the FS driver, servicing of the VFS call continues and |
| finishes with a reply to the kernel's VFS. Finally the VFS layer |
| returns to the process. |
| |
| As a result of this design a basic interface exposed by the FS driver |
| must allow Venus to manage message traffic. In particular Venus must |
| be able to retrieve and place messages and to be notified of the |
| arrival of a new message. The notification must be through a mechanism |
| which does not block Venus since Venus must attend to other tasks even |
| when no messages are waiting or being processed. |
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| Interfaces of the Coda FS Driver |
| |
| Furthermore the FS layer provides for a special path of communication |
| between a user process and Venus, called the pioctl interface. The |
| pioctl interface is used for Coda specific services, such as |
| requesting detailed information about the persistent cache managed by |
| Venus. Here the involvement of the kernel is minimal. It identifies |
| the calling process and passes the information on to Venus. When |
| Venus replies the response is passed back to the caller in unmodified |
| form. |
| |
| Finally Venus allows the kernel FS driver to cache the results from |
| certain services. This is done to avoid excessive context switches |
| and results in an efficient system. However, Venus may acquire |
| information, for example from the network which implies that cached |
| information must be flushed or replaced. Venus then makes a downcall |
| to the Coda FS layer to request flushes or updates in the cache. The |
| kernel FS driver handles such requests synchronously. |
| |
| Among these interfaces the VFS interface and the facility to place, |
| receive and be notified of messages are platform specific. We will |
| not go into the calls exported to the VFS layer but we will state the |
| requirements of the message exchange mechanism. |
| |
| 0wpage |
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| 3�3.�. T�Th�he�e m�me�es�ss�sa�ag�ge�e l�la�ay�ye�er�r |
| |
| |
| |
| At the lowest level the communication between Venus and the FS driver |
| proceeds through messages. The synchronization between processes |
| requesting Coda file service and Venus relies on blocking and waking |
| up processes. The Coda FS driver processes VFS- and pioctl-requests |
| on behalf of a process P, creates messages for Venus, awaits replies |
| and finally returns to the caller. The implementation of the exchange |
| of messages is platform specific, but the semantics have (so far) |
| appeared to be generally applicable. Data buffers are created by the |
| FS Driver in kernel memory on behalf of P and copied to user memory in |
| Venus. |
| |
| The FS Driver while servicing P makes upcalls to Venus. Such an |
| upcall is dispatched to Venus by creating a message structure. The |
| structure contains the identification of P, the message sequence |
| number, the size of the request and a pointer to the data in kernel |
| memory for the request. Since the data buffer is re-used to hold the |
| reply from Venus, there is a field for the size of the reply. A flags |
| field is used in the message to precisely record the status of the |
| message. Additional platform dependent structures involve pointers to |
| determine the position of the message on queues and pointers to |
| synchronization objects. In the upcall routine the message structure |
| is filled in, flags are set to 0, and it is placed on the _�p_�e_�n_�d_�i_�n_�g |
| queue. The routine calling upcall is responsible for allocating the |
| data buffer; its structure will be described in the next section. |
| |
| A facility must exist to notify Venus that the message has been |
| created, and implemented using available synchronization objects in |
| the OS. This notification is done in the upcall context of the process |
| P. When the message is on the pending queue, process P cannot proceed |
| in upcall. The (kernel mode) processing of P in the filesystem |
| request routine must be suspended until Venus has replied. Therefore |
| the calling thread in P is blocked in upcall. A pointer in the |
| message structure will locate the synchronization object on which P is |
| sleeping. |
| |
| Venus detects the notification that a message has arrived, and the FS |
| driver allow Venus to retrieve the message with a getmsg_from_kernel |
| call. This action finishes in the kernel by putting the message on the |
| queue of processing messages and setting flags to READ. Venus is |
| passed the contents of the data buffer. The getmsg_from_kernel call |
| now returns and Venus processes the request. |
| |
| At some later point the FS driver receives a message from Venus, |
| namely when Venus calls sendmsg_to_kernel. At this moment the Coda FS |
| driver looks at the contents of the message and decides if: |
| |
| |
| +�o the message is a reply for a suspended thread P. If so it removes |
| the message from the processing queue and marks the message as |
| WRITTEN. Finally, the FS driver unblocks P (still in the kernel |
| mode context of Venus) and the sendmsg_to_kernel call returns to |
| Venus. The process P will be scheduled at some point and continues |
| processing its upcall with the data buffer replaced with the reply |
| from Venus. |
| |
| +�o The message is a _�d_�o_�w_�n_�c_�a_�l_�l. A downcall is a request from Venus to |
| the FS Driver. The FS driver processes the request immediately |
| (usually a cache eviction or replacement) and when it finishes |
| sendmsg_to_kernel returns. |
| |
| Now P awakes and continues processing upcall. There are some |
| subtleties to take account of. First P will determine if it was woken |
| up in upcall by a signal from some other source (for example an |
| attempt to terminate P) or as is normally the case by Venus in its |
| sendmsg_to_kernel call. In the normal case, the upcall routine will |
| deallocate the message structure and return. The FS routine can proceed |
| with its processing. |
| |
| |
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| Sleeping and IPC arrangements |
| |
| In case P is woken up by a signal and not by Venus, it will first look |
| at the flags field. If the message is not yet READ, the process P can |
| handle its signal without notifying Venus. If Venus has READ, and |
| the request should not be processed, P can send Venus a signal message |
| to indicate that it should disregard the previous message. Such |
| signals are put in the queue at the head, and read first by Venus. If |
| the message is already marked as WRITTEN it is too late to stop the |
| processing. The VFS routine will now continue. (-- If a VFS request |
| involves more than one upcall, this can lead to complicated state, an |
| extra field "handle_signals" could be added in the message structure |
| to indicate points of no return have been passed.--) |
| |
| |
| |
| 3�3.�.1�1.�. I�Im�mp�pl�le�em�me�en�nt�ta�at�ti�io�on�n d�de�et�ta�ai�il�ls�s |
| |
| The Unix implementation of this mechanism has been through the |
| implementation of a character device associated with Coda. Venus |
| retrieves messages by doing a read on the device, replies are sent |
| with a write and notification is through the select system call on the |
| file descriptor for the device. The process P is kept waiting on an |
| interruptible wait queue object. |
| |
| In Windows NT and the DPMI Windows 95 implementation a DeviceIoControl |
| call is used. The DeviceIoControl call is designed to copy buffers |
| from user memory to kernel memory with OPCODES. The sendmsg_to_kernel |
| is issued as a synchronous call, while the getmsg_from_kernel call is |
| asynchronous. Windows EventObjects are used for notification of |
| message arrival. The process P is kept waiting on a KernelEvent |
| object in NT and a semaphore in Windows 95. |
| |
| 0wpage |
| |
| 4�4.�. T�Th�he�e i�in�nt�te�er�rf�fa�ac�ce�e a�at�t t�th�he�e c�ca�al�ll�l l�le�ev�ve�el�l |
| |
| |
| This section describes the upcalls a Coda FS driver can make to Venus. |
| Each of these upcalls make use of two structures: inputArgs and |
| outputArgs. In pseudo BNF form the structures take the following |
| form: |
| |
| |
| struct inputArgs { |
| u_long opcode; |
| u_long unique; /* Keep multiple outstanding msgs distinct */ |
| u_short pid; /* Common to all */ |
| u_short pgid; /* Common to all */ |
| struct CodaCred cred; /* Common to all */ |
| |
| <union "in" of call dependent parts of inputArgs> |
| }; |
| |
| struct outputArgs { |
| u_long opcode; |
| u_long unique; /* Keep multiple outstanding msgs distinct */ |
| u_long result; |
| |
| <union "out" of call dependent parts of inputArgs> |
| }; |
| |
| |
| |
| Before going on let us elucidate the role of the various fields. The |
| inputArgs start with the opcode which defines the type of service |
| requested from Venus. There are approximately 30 upcalls at present |
| which we will discuss. The unique field labels the inputArg with a |
| unique number which will identify the message uniquely. A process and |
| process group id are passed. Finally the credentials of the caller |
| are included. |
| |
| Before delving into the specific calls we need to discuss a variety of |
| data structures shared by the kernel and Venus. |
| |
| |
| |
| |
| 4�4.�.1�1.�. D�Da�at�ta�a s�st�tr�ru�uc�ct�tu�ur�re�es�s s�sh�ha�ar�re�ed�d b�by�y t�th�he�e k�ke�er�rn�ne�el�l a�an�nd�d V�Ve�en�nu�us�s |
| |
| |
| The CodaCred structure defines a variety of user and group ids as |
| they are set for the calling process. The vuid_t and guid_t are 32 bit |
| unsigned integers. It also defines group membership in an array. On |
| Unix the CodaCred has proven sufficient to implement good security |
| semantics for Coda but the structure may have to undergo modification |
| for the Windows environment when these mature. |
| |
| struct CodaCred { |
| vuid_t cr_uid, cr_euid, cr_suid, cr_fsuid; /* Real, effective, set, fs uid*/ |
| vgid_t cr_gid, cr_egid, cr_sgid, cr_fsgid; /* same for groups */ |
| vgid_t cr_groups[NGROUPS]; /* Group membership for caller */ |
| }; |
| |
| |
| |
| N�NO�OT�TE�E It is questionable if we need CodaCreds in Venus. Finally Venus |
| doesn't know about groups, although it does create files with the |
| default uid/gid. Perhaps the list of group membership is superfluous. |
| |
| |
| The next item is the fundamental identifier used to identify Coda |
| files, the ViceFid. A fid of a file uniquely defines a file or |
| directory in the Coda filesystem within a _�c_�e_�l_�l. (-- A _�c_�e_�l_�l is a |
| group of Coda servers acting under the aegis of a single system |
| control machine or SCM. See the Coda Administration manual for a |
| detailed description of the role of the SCM.--) |
| |
| |
| typedef struct ViceFid { |
| VolumeId Volume; |
| VnodeId Vnode; |
| Unique_t Unique; |
| } ViceFid; |
| |
| |
| |
| Each of the constituent fields: VolumeId, VnodeId and Unique_t are |
| unsigned 32 bit integers. We envisage that a further field will need |
| to be prefixed to identify the Coda cell; this will probably take the |
| form of a Ipv6 size IP address naming the Coda cell through DNS. |
| |
| The next important structure shared between Venus and the kernel is |
| the attributes of the file. The following structure is used to |
| exchange information. It has room for future extensions such as |
| support for device files (currently not present in Coda). |
| |
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| struct coda_vattr { |
| enum coda_vtype va_type; /* vnode type (for create) */ |
| u_short va_mode; /* files access mode and type */ |
| short va_nlink; /* number of references to file */ |
| vuid_t va_uid; /* owner user id */ |
| vgid_t va_gid; /* owner group id */ |
| long va_fsid; /* file system id (dev for now) */ |
| long va_fileid; /* file id */ |
| u_quad_t va_size; /* file size in bytes */ |
| long va_blocksize; /* blocksize preferred for i/o */ |
| struct timespec va_atime; /* time of last access */ |
| struct timespec va_mtime; /* time of last modification */ |
| struct timespec va_ctime; /* time file changed */ |
| u_long va_gen; /* generation number of file */ |
| u_long va_flags; /* flags defined for file */ |
| dev_t va_rdev; /* device special file represents */ |
| u_quad_t va_bytes; /* bytes of disk space held by file */ |
| u_quad_t va_filerev; /* file modification number */ |
| u_int va_vaflags; /* operations flags, see below */ |
| long va_spare; /* remain quad aligned */ |
| }; |
| |
| |
| |
| |
| 4�4.�.2�2.�. T�Th�he�e p�pi�io�oc�ct�tl�l i�in�nt�te�er�rf�fa�ac�ce�e |
| |
| |
| Coda specific requests can be made by application through the pioctl |
| interface. The pioctl is implemented as an ordinary ioctl on a |
| fictitious file /coda/.CONTROL. The pioctl call opens this file, gets |
| a file handle and makes the ioctl call. Finally it closes the file. |
| |
| The kernel involvement in this is limited to providing the facility to |
| open and close and pass the ioctl message _�a_�n_�d to verify that a path in |
| the pioctl data buffers is a file in a Coda filesystem. |
| |
| The kernel is handed a data packet of the form: |
| |
| struct { |
| const char *path; |
| struct ViceIoctl vidata; |
| int follow; |
| } data; |
| |
| |
| |
| where |
| |
| |
| struct ViceIoctl { |
| caddr_t in, out; /* Data to be transferred in, or out */ |
| short in_size; /* Size of input buffer <= 2K */ |
| short out_size; /* Maximum size of output buffer, <= 2K */ |
| }; |
| |
| |
| |
| The path must be a Coda file, otherwise the ioctl upcall will not be |
| made. |
| |
| N�NO�OT�TE�E The data structures and code are a mess. We need to clean this |
| up. |
| |
| We now proceed to document the individual calls: |
| |
| 0wpage |
| |
| 4�4.�.3�3.�. r�ro�oo�ot�t |
| |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n empty |
| |
| o�ou�ut�t |
| |
| struct cfs_root_out { |
| ViceFid VFid; |
| } cfs_root; |
| |
| |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n This call is made to Venus during the initialization of |
| the Coda filesystem. If the result is zero, the cfs_root structure |
| contains the ViceFid of the root of the Coda filesystem. If a non-zero |
| result is generated, its value is a platform dependent error code |
| indicating the difficulty Venus encountered in locating the root of |
| the Coda filesystem. |
| |
| 0wpage |
| |
| 4�4.�.4�4.�. l�lo�oo�ok�ku�up�p |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Find the ViceFid and type of an object in a directory if it |
| exists. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_lookup_in { |
| ViceFid VFid; |
| char *name; /* Place holder for data. */ |
| } cfs_lookup; |
| |
| |
| |
| o�ou�ut�t |
| |
| struct cfs_lookup_out { |
| ViceFid VFid; |
| int vtype; |
| } cfs_lookup; |
| |
| |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n This call is made to determine the ViceFid and filetype of |
| a directory entry. The directory entry requested carries name name |
| and Venus will search the directory identified by cfs_lookup_in.VFid. |
| The result may indicate that the name does not exist, or that |
| difficulty was encountered in finding it (e.g. due to disconnection). |
| If the result is zero, the field cfs_lookup_out.VFid contains the |
| targets ViceFid and cfs_lookup_out.vtype the coda_vtype giving the |
| type of object the name designates. |
| |
| The name of the object is an 8 bit character string of maximum length |
| CFS_MAXNAMLEN, currently set to 256 (including a 0 terminator.) |
| |
| It is extremely important to realize that Venus bitwise ors the field |
| cfs_lookup.vtype with CFS_NOCACHE to indicate that the object should |
| not be put in the kernel name cache. |
| |
| N�NO�OT�TE�E The type of the vtype is currently wrong. It should be |
| coda_vtype. Linux does not take note of CFS_NOCACHE. It should. |
| |
| 0wpage |
| |
| 4�4.�.5�5.�. g�ge�et�ta�at�tt�tr�r |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Get the attributes of a file. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_getattr_in { |
| ViceFid VFid; |
| struct coda_vattr attr; /* XXXXX */ |
| } cfs_getattr; |
| |
| |
| |
| o�ou�ut�t |
| |
| struct cfs_getattr_out { |
| struct coda_vattr attr; |
| } cfs_getattr; |
| |
| |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n This call returns the attributes of the file identified by |
| fid. |
| |
| E�Er�rr�ro�or�rs�s Errors can occur if the object with fid does not exist, is |
| unaccessible or if the caller does not have permission to fetch |
| attributes. |
| |
| N�No�ot�te�e Many kernel FS drivers (Linux, NT and Windows 95) need to acquire |
| the attributes as well as the Fid for the instantiation of an internal |
| "inode" or "FileHandle". A significant improvement in performance on |
| such systems could be made by combining the _�l_�o_�o_�k_�u_�p and _�g_�e_�t_�a_�t_�t_�r calls |
| both at the Venus/kernel interaction level and at the RPC level. |
| |
| The vattr structure included in the input arguments is superfluous and |
| should be removed. |
| |
| 0wpage |
| |
| 4�4.�.6�6.�. s�se�et�ta�at�tt�tr�r |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Set the attributes of a file. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_setattr_in { |
| ViceFid VFid; |
| struct coda_vattr attr; |
| } cfs_setattr; |
| |
| |
| |
| |
| o�ou�ut�t |
| empty |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n The structure attr is filled with attributes to be changed |
| in BSD style. Attributes not to be changed are set to -1, apart from |
| vtype which is set to VNON. Other are set to the value to be assigned. |
| The only attributes which the FS driver may request to change are the |
| mode, owner, groupid, atime, mtime and ctime. The return value |
| indicates success or failure. |
| |
| E�Er�rr�ro�or�rs�s A variety of errors can occur. The object may not exist, may |
| be inaccessible, or permission may not be granted by Venus. |
| |
| 0wpage |
| |
| 4�4.�.7�7.�. a�ac�cc�ce�es�ss�s |
| |
| |
| S�Su�um�mm�ma�ar�ry�y |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_access_in { |
| ViceFid VFid; |
| int flags; |
| } cfs_access; |
| |
| |
| |
| o�ou�ut�t |
| empty |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Verify if access to the object identified by VFid for |
| operations described by flags is permitted. The result indicates if |
| access will be granted. It is important to remember that Coda uses |
| ACLs to enforce protection and that ultimately the servers, not the |
| clients enforce the security of the system. The result of this call |
| will depend on whether a _�t_�o_�k_�e_�n is held by the user. |
| |
| E�Er�rr�ro�or�rs�s The object may not exist, or the ACL describing the protection |
| may not be accessible. |
| |
| 0wpage |
| |
| 4�4.�.8�8.�. c�cr�re�ea�at�te�e |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Invoked to create a file |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_create_in { |
| ViceFid VFid; |
| struct coda_vattr attr; |
| int excl; |
| int mode; |
| char *name; /* Place holder for data. */ |
| } cfs_create; |
| |
| |
| |
| |
| o�ou�ut�t |
| |
| struct cfs_create_out { |
| ViceFid VFid; |
| struct coda_vattr attr; |
| } cfs_create; |
| |
| |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n This upcall is invoked to request creation of a file. |
| The file will be created in the directory identified by VFid, its name |
| will be name, and the mode will be mode. If excl is set an error will |
| be returned if the file already exists. If the size field in attr is |
| set to zero the file will be truncated. The uid and gid of the file |
| are set by converting the CodaCred to a uid using a macro CRTOUID |
| (this macro is platform dependent). Upon success the VFid and |
| attributes of the file are returned. The Coda FS Driver will normally |
| instantiate a vnode, inode or file handle at kernel level for the new |
| object. |
| |
| |
| E�Er�rr�ro�or�rs�s A variety of errors can occur. Permissions may be insufficient. |
| If the object exists and is not a file the error EISDIR is returned |
| under Unix. |
| |
| N�NO�OT�TE�E The packing of parameters is very inefficient and appears to |
| indicate confusion between the system call creat and the VFS operation |
| create. The VFS operation create is only called to create new objects. |
| This create call differs from the Unix one in that it is not invoked |
| to return a file descriptor. The truncate and exclusive options, |
| together with the mode, could simply be part of the mode as it is |
| under Unix. There should be no flags argument; this is used in open |
| (2) to return a file descriptor for READ or WRITE mode. |
| |
| The attributes of the directory should be returned too, since the size |
| and mtime changed. |
| |
| 0wpage |
| |
| 4�4.�.9�9.�. m�mk�kd�di�ir�r |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Create a new directory. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_mkdir_in { |
| ViceFid VFid; |
| struct coda_vattr attr; |
| char *name; /* Place holder for data. */ |
| } cfs_mkdir; |
| |
| |
| |
| o�ou�ut�t |
| |
| struct cfs_mkdir_out { |
| ViceFid VFid; |
| struct coda_vattr attr; |
| } cfs_mkdir; |
| |
| |
| |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n This call is similar to create but creates a directory. |
| Only the mode field in the input parameters is used for creation. |
| Upon successful creation, the attr returned contains the attributes of |
| the new directory. |
| |
| E�Er�rr�ro�or�rs�s As for create. |
| |
| N�NO�OT�TE�E The input parameter should be changed to mode instead of |
| attributes. |
| |
| The attributes of the parent should be returned since the size and |
| mtime changes. |
| |
| 0wpage |
| |
| 4�4.�.1�10�0.�. l�li�in�nk�k |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Create a link to an existing file. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_link_in { |
| ViceFid sourceFid; /* cnode to link *to* */ |
| ViceFid destFid; /* Directory in which to place link */ |
| char *tname; /* Place holder for data. */ |
| } cfs_link; |
| |
| |
| |
| o�ou�ut�t |
| empty |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n This call creates a link to the sourceFid in the directory |
| identified by destFid with name tname. The source must reside in the |
| target's parent, i.e. the source must be have parent destFid, i.e. Coda |
| does not support cross directory hard links. Only the return value is |
| relevant. It indicates success or the type of failure. |
| |
| E�Er�rr�ro�or�rs�s The usual errors can occur.0wpage |
| |
| 4�4.�.1�11�1.�. s�sy�ym�ml�li�in�nk�k |
| |
| |
| S�Su�um�mm�ma�ar�ry�y create a symbolic link |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_symlink_in { |
| ViceFid VFid; /* Directory to put symlink in */ |
| char *srcname; |
| struct coda_vattr attr; |
| char *tname; |
| } cfs_symlink; |
| |
| |
| |
| o�ou�ut�t |
| none |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Create a symbolic link. The link is to be placed in the |
| directory identified by VFid and named tname. It should point to the |
| pathname srcname. The attributes of the newly created object are to |
| be set to attr. |
| |
| E�Er�rr�ro�or�rs�s |
| |
| N�NO�OT�TE�E The attributes of the target directory should be returned since |
| its size changed. |
| |
| 0wpage |
| |
| 4�4.�.1�12�2.�. r�re�em�mo�ov�ve�e |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Remove a file |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_remove_in { |
| ViceFid VFid; |
| char *name; /* Place holder for data. */ |
| } cfs_remove; |
| |
| |
| |
| o�ou�ut�t |
| none |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Remove file named cfs_remove_in.name in directory |
| identified by VFid. |
| |
| E�Er�rr�ro�or�rs�s |
| |
| N�NO�OT�TE�E The attributes of the directory should be returned since its |
| mtime and size may change. |
| |
| 0wpage |
| |
| 4�4.�.1�13�3.�. r�rm�md�di�ir�r |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Remove a directory |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_rmdir_in { |
| ViceFid VFid; |
| char *name; /* Place holder for data. */ |
| } cfs_rmdir; |
| |
| |
| |
| o�ou�ut�t |
| none |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Remove the directory with name name from the directory |
| identified by VFid. |
| |
| E�Er�rr�ro�or�rs�s |
| |
| N�NO�OT�TE�E The attributes of the parent directory should be returned since |
| its mtime and size may change. |
| |
| 0wpage |
| |
| 4�4.�.1�14�4.�. r�re�ea�ad�dl�li�in�nk�k |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Read the value of a symbolic link. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_readlink_in { |
| ViceFid VFid; |
| } cfs_readlink; |
| |
| |
| |
| o�ou�ut�t |
| |
| struct cfs_readlink_out { |
| int count; |
| caddr_t data; /* Place holder for data. */ |
| } cfs_readlink; |
| |
| |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n This routine reads the contents of symbolic link |
| identified by VFid into the buffer data. The buffer data must be able |
| to hold any name up to CFS_MAXNAMLEN (PATH or NAM??). |
| |
| E�Er�rr�ro�or�rs�s No unusual errors. |
| |
| 0wpage |
| |
| 4�4.�.1�15�5.�. o�op�pe�en�n |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Open a file. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_open_in { |
| ViceFid VFid; |
| int flags; |
| } cfs_open; |
| |
| |
| |
| o�ou�ut�t |
| |
| struct cfs_open_out { |
| dev_t dev; |
| ino_t inode; |
| } cfs_open; |
| |
| |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n This request asks Venus to place the file identified by |
| VFid in its cache and to note that the calling process wishes to open |
| it with flags as in open(2). The return value to the kernel differs |
| for Unix and Windows systems. For Unix systems the Coda FS Driver is |
| informed of the device and inode number of the container file in the |
| fields dev and inode. For Windows the path of the container file is |
| returned to the kernel. |
| E�Er�rr�ro�or�rs�s |
| |
| N�NO�OT�TE�E Currently the cfs_open_out structure is not properly adapted to |
| deal with the Windows case. It might be best to implement two |
| upcalls, one to open aiming at a container file name, the other at a |
| container file inode. |
| |
| 0wpage |
| |
| 4�4.�.1�16�6.�. c�cl�lo�os�se�e |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Close a file, update it on the servers. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_close_in { |
| ViceFid VFid; |
| int flags; |
| } cfs_close; |
| |
| |
| |
| o�ou�ut�t |
| none |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Close the file identified by VFid. |
| |
| E�Er�rr�ro�or�rs�s |
| |
| N�NO�OT�TE�E The flags argument is bogus and not used. However, Venus' code |
| has room to deal with an execp input field, probably this field should |
| be used to inform Venus that the file was closed but is still memory |
| mapped for execution. There are comments about fetching versus not |
| fetching the data in Venus vproc_vfscalls. This seems silly. If a |
| file is being closed, the data in the container file is to be the new |
| data. Here again the execp flag might be in play to create confusion: |
| currently Venus might think a file can be flushed from the cache when |
| it is still memory mapped. This needs to be understood. |
| |
| 0wpage |
| |
| 4�4.�.1�17�7.�. i�io�oc�ct�tl�l |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Do an ioctl on a file. This includes the pioctl interface. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_ioctl_in { |
| ViceFid VFid; |
| int cmd; |
| int len; |
| int rwflag; |
| char *data; /* Place holder for data. */ |
| } cfs_ioctl; |
| |
| |
| |
| o�ou�ut�t |
| |
| |
| struct cfs_ioctl_out { |
| int len; |
| caddr_t data; /* Place holder for data. */ |
| } cfs_ioctl; |
| |
| |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Do an ioctl operation on a file. The command, len and |
| data arguments are filled as usual. flags is not used by Venus. |
| |
| E�Er�rr�ro�or�rs�s |
| |
| N�NO�OT�TE�E Another bogus parameter. flags is not used. What is the |
| business about PREFETCHING in the Venus code? |
| |
| |
| 0wpage |
| |
| 4�4.�.1�18�8.�. r�re�en�na�am�me�e |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Rename a fid. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_rename_in { |
| ViceFid sourceFid; |
| char *srcname; |
| ViceFid destFid; |
| char *destname; |
| } cfs_rename; |
| |
| |
| |
| o�ou�ut�t |
| none |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Rename the object with name srcname in directory |
| sourceFid to destname in destFid. It is important that the names |
| srcname and destname are 0 terminated strings. Strings in Unix |
| kernels are not always null terminated. |
| |
| E�Er�rr�ro�or�rs�s |
| |
| 0wpage |
| |
| 4�4.�.1�19�9.�. r�re�ea�ad�dd�di�ir�r |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Read directory entries. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_readdir_in { |
| ViceFid VFid; |
| int count; |
| int offset; |
| } cfs_readdir; |
| |
| |
| |
| |
| o�ou�ut�t |
| |
| struct cfs_readdir_out { |
| int size; |
| caddr_t data; /* Place holder for data. */ |
| } cfs_readdir; |
| |
| |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Read directory entries from VFid starting at offset and |
| read at most count bytes. Returns the data in data and returns |
| the size in size. |
| |
| E�Er�rr�ro�or�rs�s |
| |
| N�NO�OT�TE�E This call is not used. Readdir operations exploit container |
| files. We will re-evaluate this during the directory revamp which is |
| about to take place. |
| |
| 0wpage |
| |
| 4�4.�.2�20�0.�. v�vg�ge�et�t |
| |
| |
| S�Su�um�mm�ma�ar�ry�y instructs Venus to do an FSDB->Get. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_vget_in { |
| ViceFid VFid; |
| } cfs_vget; |
| |
| |
| |
| o�ou�ut�t |
| |
| struct cfs_vget_out { |
| ViceFid VFid; |
| int vtype; |
| } cfs_vget; |
| |
| |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n This upcall asks Venus to do a get operation on an fsobj |
| labelled by VFid. |
| |
| E�Er�rr�ro�or�rs�s |
| |
| N�NO�OT�TE�E This operation is not used. However, it is extremely useful |
| since it can be used to deal with read/write memory mapped files. |
| These can be "pinned" in the Venus cache using vget and released with |
| inactive. |
| |
| 0wpage |
| |
| 4�4.�.2�21�1.�. f�fs�sy�yn�nc�c |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Tell Venus to update the RVM attributes of a file. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_fsync_in { |
| ViceFid VFid; |
| } cfs_fsync; |
| |
| |
| |
| o�ou�ut�t |
| none |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Ask Venus to update RVM attributes of object VFid. This |
| should be called as part of kernel level fsync type calls. The |
| result indicates if the syncing was successful. |
| |
| E�Er�rr�ro�or�rs�s |
| |
| N�NO�OT�TE�E Linux does not implement this call. It should. |
| |
| 0wpage |
| |
| 4�4.�.2�22�2.�. i�in�na�ac�ct�ti�iv�ve�e |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Tell Venus a vnode is no longer in use. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_inactive_in { |
| ViceFid VFid; |
| } cfs_inactive; |
| |
| |
| |
| o�ou�ut�t |
| none |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n This operation returns EOPNOTSUPP. |
| |
| E�Er�rr�ro�or�rs�s |
| |
| N�NO�OT�TE�E This should perhaps be removed. |
| |
| 0wpage |
| |
| 4�4.�.2�23�3.�. r�rd�dw�wr�r |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Read or write from a file |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct cfs_rdwr_in { |
| ViceFid VFid; |
| int rwflag; |
| int count; |
| int offset; |
| int ioflag; |
| caddr_t data; /* Place holder for data. */ |
| } cfs_rdwr; |
| |
| |
| |
| |
| o�ou�ut�t |
| |
| struct cfs_rdwr_out { |
| int rwflag; |
| int count; |
| caddr_t data; /* Place holder for data. */ |
| } cfs_rdwr; |
| |
| |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n This upcall asks Venus to read or write from a file. |
| |
| E�Er�rr�ro�or�rs�s |
| |
| N�NO�OT�TE�E It should be removed since it is against the Coda philosophy that |
| read/write operations never reach Venus. I have been told the |
| operation does not work. It is not currently used. |
| |
| |
| 0wpage |
| |
| 4�4.�.2�24�4.�. o�od�dy�ym�mo�ou�un�nt�t |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Allows mounting multiple Coda "filesystems" on one Unix mount |
| point. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n |
| |
| struct ody_mount_in { |
| char *name; /* Place holder for data. */ |
| } ody_mount; |
| |
| |
| |
| o�ou�ut�t |
| |
| struct ody_mount_out { |
| ViceFid VFid; |
| } ody_mount; |
| |
| |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Asks Venus to return the rootfid of a Coda system named |
| name. The fid is returned in VFid. |
| |
| E�Er�rr�ro�or�rs�s |
| |
| N�NO�OT�TE�E This call was used by David for dynamic sets. It should be |
| removed since it causes a jungle of pointers in the VFS mounting area. |
| It is not used by Coda proper. Call is not implemented by Venus. |
| |
| 0wpage |
| |
| 4�4.�.2�25�5.�. o�od�dy�y_�_l�lo�oo�ok�ku�up�p |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Looks up something. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n irrelevant |
| |
| |
| o�ou�ut�t |
| irrelevant |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n |
| |
| E�Er�rr�ro�or�rs�s |
| |
| N�NO�OT�TE�E Gut it. Call is not implemented by Venus. |
| |
| 0wpage |
| |
| 4�4.�.2�26�6.�. o�od�dy�y_�_e�ex�xp�pa�an�nd�d |
| |
| |
| S�Su�um�mm�ma�ar�ry�y expands something in a dynamic set. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n irrelevant |
| |
| o�ou�ut�t |
| irrelevant |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n |
| |
| E�Er�rr�ro�or�rs�s |
| |
| N�NO�OT�TE�E Gut it. Call is not implemented by Venus. |
| |
| 0wpage |
| |
| 4�4.�.2�27�7.�. p�pr�re�ef�fe�et�tc�ch�h |
| |
| |
| S�Su�um�mm�ma�ar�ry�y Prefetch a dynamic set. |
| |
| A�Ar�rg�gu�um�me�en�nt�ts�s |
| |
| i�in�n Not documented. |
| |
| o�ou�ut�t |
| Not documented. |
| |
| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Venus worker.cc has support for this call, although it is |
| noted that it doesn't work. Not surprising, since the kernel does not |
| have support for it. (ODY_PREFETCH is not a defined operation). |
| |
| E�Er�rr�ro�or�rs�s |
| |
| N�NO�OT�TE�E Gut it. It isn't working and isn't used by Coda. |
| |
| |
| 0wpage |
| |
| 4�4.�.2�28�8.�. s�si�ig�gn�na�al�l |
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| S�Su�um�mm�ma�ar�ry�y Send Venus a signal about an upcall. |
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| A�Ar�rg�gu�um�me�en�nt�ts�s |
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| i�in�n none |
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| o�ou�ut�t |
| not applicable. |
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| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n This is an out-of-band upcall to Venus to inform Venus |
| that the calling process received a signal after Venus read the |
| message from the input queue. Venus is supposed to clean up the |
| operation. |
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| E�Er�rr�ro�or�rs�s No reply is given. |
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| N�NO�OT�TE�E We need to better understand what Venus needs to clean up and if |
| it is doing this correctly. Also we need to handle multiple upcall |
| per system call situations correctly. It would be important to know |
| what state changes in Venus take place after an upcall for which the |
| kernel is responsible for notifying Venus to clean up (e.g. open |
| definitely is such a state change, but many others are maybe not). |
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| 5�5.�. T�Th�he�e m�mi�in�ni�ic�ca�ac�ch�he�e a�an�nd�d d�do�ow�wn�nc�ca�al�ll�ls�s |
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| The Coda FS Driver can cache results of lookup and access upcalls, to |
| limit the frequency of upcalls. Upcalls carry a price since a process |
| context switch needs to take place. The counterpart of caching the |
| information is that Venus will notify the FS Driver that cached |
| entries must be flushed or renamed. |
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| The kernel code generally has to maintain a structure which links the |
| internal file handles (called vnodes in BSD, inodes in Linux and |
| FileHandles in Windows) with the ViceFid's which Venus maintains. The |
| reason is that frequent translations back and forth are needed in |
| order to make upcalls and use the results of upcalls. Such linking |
| objects are called c�cn�no�od�de�es�s. |
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| The current minicache implementations have cache entries which record |
| the following: |
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| 1. the name of the file |
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| 2. the cnode of the directory containing the object |
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| 3. a list of CodaCred's for which the lookup is permitted. |
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| 4. the cnode of the object |
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| The lookup call in the Coda FS Driver may request the cnode of the |
| desired object from the cache, by passing its name, directory and the |
| CodaCred's of the caller. The cache will return the cnode or indicate |
| that it cannot be found. The Coda FS Driver must be careful to |
| invalidate cache entries when it modifies or removes objects. |
| |
| When Venus obtains information that indicates that cache entries are |
| no longer valid, it will make a downcall to the kernel. Downcalls are |
| intercepted by the Coda FS Driver and lead to cache invalidations of |
| the kind described below. The Coda FS Driver does not return an error |
| unless the downcall data could not be read into kernel memory. |
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| 5�5.�.1�1.�. I�IN�NV�VA�AL�LI�ID�DA�AT�TE�E |
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| No information is available on this call. |
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| 5�5.�.2�2.�. F�FL�LU�US�SH�H |
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| A�Ar�rg�gu�um�me�en�nt�ts�s None |
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| S�Su�um�mm�ma�ar�ry�y Flush the name cache entirely. |
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| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Venus issues this call upon startup and when it dies. This |
| is to prevent stale cache information being held. Some operating |
| systems allow the kernel name cache to be switched off dynamically. |
| When this is done, this downcall is made. |
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| 5�5.�.3�3.�. P�PU�UR�RG�GE�EU�US�SE�ER�R |
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| A�Ar�rg�gu�um�me�en�nt�ts�s |
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| struct cfs_purgeuser_out {/* CFS_PURGEUSER is a venus->kernel call */ |
| struct CodaCred cred; |
| } cfs_purgeuser; |
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| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Remove all entries in the cache carrying the Cred. This |
| call is issued when tokens for a user expire or are flushed. |
| |
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| 5�5.�.4�4.�. Z�ZA�AP�PF�FI�IL�LE�E |
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| A�Ar�rg�gu�um�me�en�nt�ts�s |
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| struct cfs_zapfile_out { /* CFS_ZAPFILE is a venus->kernel call */ |
| ViceFid CodaFid; |
| } cfs_zapfile; |
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| |
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| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Remove all entries which have the (dir vnode, name) pair. |
| This is issued as a result of an invalidation of cached attributes of |
| a vnode. |
| |
| N�NO�OT�TE�E Call is not named correctly in NetBSD and Mach. The minicache |
| zapfile routine takes different arguments. Linux does not implement |
| the invalidation of attributes correctly. |
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| 5�5.�.5�5.�. Z�ZA�AP�PD�DI�IR�R |
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| A�Ar�rg�gu�um�me�en�nt�ts�s |
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| struct cfs_zapdir_out { /* CFS_ZAPDIR is a venus->kernel call */ |
| ViceFid CodaFid; |
| } cfs_zapdir; |
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| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Remove all entries in the cache lying in a directory |
| CodaFid, and all children of this directory. This call is issued when |
| Venus receives a callback on the directory. |
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| 5�5.�.6�6.�. Z�ZA�AP�PV�VN�NO�OD�DE�E |
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| A�Ar�rg�gu�um�me�en�nt�ts�s |
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| struct cfs_zapvnode_out { /* CFS_ZAPVNODE is a venus->kernel call */ |
| struct CodaCred cred; |
| ViceFid VFid; |
| } cfs_zapvnode; |
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| |
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| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Remove all entries in the cache carrying the cred and VFid |
| as in the arguments. This downcall is probably never issued. |
| |
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| 5�5.�.7�7.�. P�PU�UR�RG�GE�EF�FI�ID�D |
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| S�Su�um�mm�ma�ar�ry�y |
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| A�Ar�rg�gu�um�me�en�nt�ts�s |
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| struct cfs_purgefid_out { /* CFS_PURGEFID is a venus->kernel call */ |
| ViceFid CodaFid; |
| } cfs_purgefid; |
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| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n Flush the attribute for the file. If it is a dir (odd |
| vnode), purge its children from the namecache and remove the file from the |
| namecache. |
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| 5�5.�.8�8.�. R�RE�EP�PL�LA�AC�CE�E |
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| S�Su�um�mm�ma�ar�ry�y Replace the Fid's for a collection of names. |
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| A�Ar�rg�gu�um�me�en�nt�ts�s |
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| struct cfs_replace_out { /* cfs_replace is a venus->kernel call */ |
| ViceFid NewFid; |
| ViceFid OldFid; |
| } cfs_replace; |
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| D�De�es�sc�cr�ri�ip�pt�ti�io�on�n This routine replaces a ViceFid in the name cache with |
| another. It is added to allow Venus during reintegration to replace |
| locally allocated temp fids while disconnected with global fids even |
| when the reference counts on those fids are not zero. |
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| 6�6.�. I�In�ni�it�ti�ia�al�li�iz�za�at�ti�io�on�n a�an�nd�d c�cl�le�ea�an�nu�up�p |
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| This section gives brief hints as to desirable features for the Coda |
| FS Driver at startup and upon shutdown or Venus failures. Before |
| entering the discussion it is useful to repeat that the Coda FS Driver |
| maintains the following data: |
| |
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| 1. message queues |
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| 2. cnodes |
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| 3. name cache entries |
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| The name cache entries are entirely private to the driver, so they |
| can easily be manipulated. The message queues will generally have |
| clear points of initialization and destruction. The cnodes are |
| much more delicate. User processes hold reference counts in Coda |
| filesystems and it can be difficult to clean up the cnodes. |
| |
| It can expect requests through: |
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| 1. the message subsystem |
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| 2. the VFS layer |
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| 3. pioctl interface |
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| Currently the _�p_�i_�o_�c_�t_�l passes through the VFS for Coda so we can |
| treat these similarly. |
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| 6�6.�.1�1.�. R�Re�eq�qu�ui�ir�re�em�me�en�nt�ts�s |
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| The following requirements should be accommodated: |
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| 1. The message queues should have open and close routines. On Unix |
| the opening of the character devices are such routines. |
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| +�o Before opening, no messages can be placed. |
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| +�o Opening will remove any old messages still pending. |
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| +�o Close will notify any sleeping processes that their upcall cannot |
| be completed. |
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| +�o Close will free all memory allocated by the message queues. |
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| 2. At open the namecache shall be initialized to empty state. |
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| 3. Before the message queues are open, all VFS operations will fail. |
| Fortunately this can be achieved by making sure than mounting the |
| Coda filesystem cannot succeed before opening. |
| |
| 4. After closing of the queues, no VFS operations can succeed. Here |
| one needs to be careful, since a few operations (lookup, |
| read/write, readdir) can proceed without upcalls. These must be |
| explicitly blocked. |
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| 5. Upon closing the namecache shall be flushed and disabled. |
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| 6. All memory held by cnodes can be freed without relying on upcalls. |
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| 7. Unmounting the file system can be done without relying on upcalls. |
| |
| 8. Mounting the Coda filesystem should fail gracefully if Venus cannot |
| get the rootfid or the attributes of the rootfid. The latter is |
| best implemented by Venus fetching these objects before attempting |
| to mount. |
| |
| N�NO�OT�TE�E NetBSD in particular but also Linux have not implemented the |
| above requirements fully. For smooth operation this needs to be |
| corrected. |
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