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authorYang Zhang <yang.z.zhang@intel.com>2015-08-28 09:58:54 +0800
committerYang Zhang <yang.z.zhang@intel.com>2015-09-01 12:44:00 +0800
commite44e3482bdb4d0ebde2d8b41830ac2cdb07948fb (patch)
tree66b09f592c55df2878107a468a91d21506104d3f /qemu/docs/libcacard.txt
parent9ca8dbcc65cfc63d6f5ef3312a33184e1d726e00 (diff)
Add qemu 2.4.0
Change-Id: Ic99cbad4b61f8b127b7dc74d04576c0bcbaaf4f5 Signed-off-by: Yang Zhang <yang.z.zhang@intel.com>
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+This file documents the CAC (Common Access Card) library in the libcacard
+subdirectory.
+
+Virtual Smart Card Emulator
+
+This emulator is designed to provide emulation of actual smart cards to a
+virtual card reader running in a guest virtual machine. The emulated smart
+cards can be representations of real smart cards, where the necessary functions
+such as signing, card removal/insertion, etc. are mapped to real, physical
+cards which are shared with the client machine the emulator is running on, or
+the cards could be pure software constructs.
+
+The emulator is structured to allow multiple replaceable or additional pieces,
+so it can be easily modified for future requirements. The primary envisioned
+modifications are:
+
+1) The socket connection to the virtual card reader (presumably a CCID reader,
+but other ISO-7816 compatible readers could be used). The code that handles
+this is in vscclient.c.
+
+2) The virtual card low level emulation. This is currently supplied by using
+NSS. This emulation could be replaced by implementations based on other
+security libraries, including but not limitted to openssl+pkcs#11 library,
+raw pkcs#11, Microsoft CAPI, direct opensc calls, etc. The code that handles
+this is in vcard_emul_nss.c.
+
+3) Emulation for new types of cards. The current implementation emulates the
+original DoD CAC standard with separate pki containers. This emulator lives in
+cac.c. More than one card type emulator could be included. Other cards could
+be emulated as well, including PIV, newer versions of CAC, PKCS #15, etc.
+
+--------------------
+Replacing the Socket Based Virtual Reader Interface.
+
+The current implementation contains a replaceable module vscclient.c. The
+current vscclient.c implements a sockets interface to the virtual ccid reader
+on the guest. CCID commands that are pertinent to emulation are passed
+across the socket, and their responses are passed back along that same socket.
+The protocol that vscclient uses is defined in vscard_common.h and connects
+to a qemu ccid usb device. Since this socket runs as a client, vscclient.c
+implements a program with a main entry. It also handles argument parsing for
+the emulator.
+
+An application that wants to use the virtual reader can replace vscclient.c
+with its own implementation that connects to its own CCID reader. The calls
+that the CCID reader can call are:
+
+ VReaderList * vreader_get_reader_list();
+
+ This function returns a list of virtual readers. These readers may map to
+ physical devices, or simulated devices depending on vcard the back end. Each
+ reader in the list should represent a reader to the virtual machine. Virtual
+ USB address mapping is left to the CCID reader front end. This call can be
+ made any time to get an updated list. The returned list is a copy of the
+ internal list that can be referenced by the caller without locking. This copy
+ must be freed by the caller with vreader_list_delete when it is no longer
+ needed.
+
+ VReaderListEntry *vreader_list_get_first(VReaderList *);
+
+ This function gets the first entry on the reader list. Along with
+ vreader_list_get_next(), vreader_list_get_first() can be used to walk the
+ reader list returned from vreader_get_reader_list(). VReaderListEntries are
+ part of the list themselves and do not need to be freed separately from the
+ list. If there are no entries on the list, it will return NULL.
+
+ VReaderListEntry *vreader_list_get_next(VReaderListEntry *);
+
+ This function gets the next entry in the list. If there are no more entries
+ it will return NULL.
+
+ VReader * vreader_list_get_reader(VReaderListEntry *)
+
+ This function returns the reader stored in the reader List entry. Caller gets
+ a new reference to a reader. The caller must free its reference when it is
+ finished with vreader_free().
+
+ void vreader_free(VReader *reader);
+
+ This function frees a reference to a reader. Readers are reference counted
+ and are automatically deleted when the last reference is freed.
+
+ void vreader_list_delete(VReaderList *list);
+
+ This function frees the list, all the elements on the list, and all the
+ reader references held by the list.
+
+ VReaderStatus vreader_power_on(VReader *reader, char *atr, int *len);
+
+ This function simulates a card power on. A virtual card does not care about
+ the actual voltage and other physical parameters, but it does care that the
+ card is actually on or off. Cycling the card causes the card to reset. If
+ the caller provides enough space, vreader_power_on will return the ATR of
+ the virtual card. The amount of space provided in atr should be indicated
+ in *len. The function modifies *len to be the actual length of of the
+ returned ATR.
+
+ VReaderStatus vreader_power_off(VReader *reader);
+
+ This function simulates a power off of a virtual card.
+
+ VReaderStatus vreader_xfer_bytes(VReader *reader, unsigne char *send_buf,
+ int send_buf_len,
+ unsigned char *receive_buf,
+ int receive_buf_len);
+
+ This function sends a raw apdu to a card and returns the card's response.
+ The CCID front end should return the response back. Most of the emulation
+ is driven from these APDUs.
+
+ VReaderStatus vreader_card_is_present(VReader *reader);
+
+ This function returns whether or not the reader has a card inserted. The
+ vreader_power_on, vreader_power_off, and vreader_xfer_bytes will return
+ VREADER_NO_CARD.
+
+ const char *vreader_get_name(VReader *reader);
+
+ This function returns the name of the reader. The name comes from the card
+ emulator level and is usually related to the name of the physical reader.
+
+ VReaderID vreader_get_id(VReader *reader);
+
+ This function returns the id of a reader. All readers start out with an id
+ of -1. The application can set the id with vreader_set_id.
+
+ VReaderStatus vreader_get_id(VReader *reader, VReaderID id);
+
+ This function sets the reader id. The application is responsible for making
+ sure that the id is unique for all readers it is actively using.
+
+ VReader *vreader_find_reader_by_id(VReaderID id);
+
+ This function returns the reader which matches the id. If two readers match,
+ only one is returned. The function returns NULL if the id is -1.
+
+ Event *vevent_wait_next_vevent();
+
+ This function blocks waiting for reader and card insertion events. There
+ will be one event for each card insertion, each card removal, each reader
+ insertion and each reader removal. At start up, events are created for all
+ the initial readers found, as well as all the cards that are inserted.
+
+ Event *vevent_get_next_vevent();
+
+ This function returns a pending event if it exists, otherwise it returns
+ NULL. It does not block.
+
+----------------
+Card Type Emulator: Adding a New Virtual Card Type
+
+The ISO 7816 card spec describes 2 types of cards:
+ 1) File system cards, where the smartcard is managed by reading and writing
+data to files in a file system. There is currently only boiler plate
+implemented for file system cards.
+ 2) VM cards, where the card has loadable applets which perform the card
+functions. The current implementation supports VM cards.
+
+In the case of VM cards, the difference between various types of cards is
+really what applets have been installed in that card. This structure is
+mirrored in card type emulators. The 7816 emulator already handles the basic
+ISO 7186 commands. Card type emulators simply need to add the virtual applets
+which emulate the real card applets. Card type emulators have exactly one
+public entry point:
+
+ VCARDStatus xxx_card_init(VCard *card, const char *flags,
+ const unsigned char *cert[],
+ int cert_len[],
+ VCardKey *key[],
+ int cert_count);
+
+ The parameters for this are:
+ card - the virtual card structure which will represent this card.
+ flags - option flags that may be specific to this card type.
+ cert - array of binary certificates.
+ cert_len - array of lengths of each of the certificates specified in cert.
+ key - array of opaque key structures representing the private keys on
+ the card.
+ cert_count - number of entries in cert, cert_len, and key arrays.
+
+ Any cert, cert_len, or key with the same index are matching sets. That is
+ cert[0] is cert_len[0] long and has the corresponding private key of key[0].
+
+The card type emulator is expected to own the VCardKeys, but it should copy
+any raw cert data it wants to save. It can create new applets and add them to
+the card using the following functions:
+
+ VCardApplet *vcard_new_applet(VCardProcessAPDU apdu_func,
+ VCardResetApplet reset_func,
+ const unsigned char *aid,
+ int aid_len);
+
+ This function creates a new applet. Applet structures store the following
+ information:
+ 1) the AID of the applet (set by aid and aid_len).
+ 2) a function to handle APDUs for this applet. (set by apdu_func, more on
+ this below).
+ 3) a function to reset the applet state when the applet is selected.
+ (set by reset_func, more on this below).
+ 3) applet private data, a data pointer used by the card type emulator to
+ store any data or state it needs to complete requests. (set by a
+ separate call).
+ 4) applet private data free, a function used to free the applet private
+ data when the applet itself is destroyed.
+ The created applet can be added to the card with vcard_add_applet below.
+
+ void vcard_set_applet_private(VCardApplet *applet,
+ VCardAppletPrivate *private,
+ VCardAppletPrivateFree private_free);
+ This function sets the private data and the corresponding free function.
+ VCardAppletPrivate is an opaque data structure to the rest of the emulator.
+ The card type emulator can define it any way it wants by defining
+ struct VCardAppletPrivateStruct {};. If there is already a private data
+ structure on the applet, the old one is freed before the new one is set up.
+ passing two NULL clear any existing private data.
+
+ VCardStatus vcard_add_applet(VCard *card, VCardApplet *applet);
+
+ Add an applet onto the list of applets attached to the card. Once an applet
+ has been added, it can be selected by its AID, and then commands will be
+ routed to it VCardProcessAPDU function. This function adopts the applet that
+ is passed into it. Note: 2 applets with the same AID should not be added to
+ the same card. It is permissible to add more than one applet. Multiple applets
+ may have the same VCardPRocessAPDU entry point.
+
+The certs and keys should be attached to private data associated with one or
+more appropriate applets for that card. Control will come to the card type
+emulators once one of its applets are selected through the VCardProcessAPDU
+function it specified when it created the applet.
+
+The signature of VCardResetApplet is:
+ VCardStatus (*VCardResetApplet) (VCard *card, int channel);
+ This function will reset the any internal applet state that needs to be
+ cleared after a select applet call. It should return VCARD_DONE;
+
+The signature of VCardProcessAPDU is:
+ VCardStatus (*VCardProcessAPDU)(VCard *card, VCardAPDU *apdu,
+ VCardResponse **response);
+ This function examines the APDU and determines whether it should process
+ the apdu directly, reject the apdu as invalid, or pass the apdu on to
+ the basic 7816 emulator for processing.
+ If the 7816 emulator should process the apdu, then the VCardProcessAPDU
+ should return VCARD_NEXT.
+ If there is an error, then VCardProcessAPDU should return an error
+ response using vcard_make_response and the appropriate 7816 error code
+ (see card_7816t.h) or vcard_make_response with a card type specific error
+ code. It should then return VCARD_DONE.
+ If the apdu can be processed correctly, VCardProcessAPDU should do so,
+ set the response value appropriately for that APDU, and return VCARD_DONE.
+ VCardProcessAPDU should always set the response if it returns VCARD_DONE.
+ It should always either return VCARD_DONE or VCARD_NEXT.
+
+Parsing the APDU --
+
+Prior to processing calling the card type emulator's VCardProcessAPDU function, the emulator has already decoded the APDU header and set several fields:
+
+ apdu->a_data - The raw apdu data bytes.
+ apdu->a_len - The len of the raw apdu data.
+ apdu->a_body - The start of any post header parameter data.
+ apdu->a_Lc - The parameter length value.
+ apdu->a_Le - The expected length of any returned data.
+ apdu->a_cla - The raw apdu class.
+ apdu->a_channel - The channel (decoded from the class).
+ apdu->a_secure_messaging_type - The decoded secure messaging type
+ (from class).
+ apdu->a_type - The decode class type.
+ apdu->a_gen_type - the generic class type (7816, PROPRIETARY, RFU, PTS).
+ apdu->a_ins - The instruction byte.
+ apdu->a_p1 - Parameter 1.
+ apdu->a_p2 - Parameter 2.
+
+Creating a Response --
+
+The expected result of any APDU call is a response. The card type emulator must
+set *response with an appropriate VCardResponse value if it returns VCARD_DONE.
+Responses could be as simple as returning a 2 byte status word response, to as
+complex as returning a block of data along with a 2 byte response. Which is
+returned will depend on the semantics of the APDU. The following functions will
+create card responses.
+
+ VCardResponse *vcard_make_response(VCard7816Status status);
+
+ This is the most basic function to get a response. This function will
+ return a response the consists solely one 2 byte status code. If that status
+ code is defined in card_7816t.h, then this function is guaranteed to
+ return a response with that status. If a cart type specific status code
+ is passed and vcard_make_response fails to allocate the appropriate memory
+ for that response, then vcard_make_response will return a VCardResponse
+ of VCARD7816_STATUS_EXC_ERROR_MEMORY. In any case, this function is
+ guaranteed to return a valid VCardResponse.
+
+ VCardResponse *vcard_response_new(unsigned char *buf, int len,
+ VCard7816Status status);
+
+ This function is similar to vcard_make_response except it includes some
+ returned data with the response. It could also fail to allocate enough
+ memory, in which case it will return NULL.
+
+ VCardResponse *vcard_response_new_status_bytes(unsigned char sw1,
+ unsigned char sw2);
+
+ Sometimes in 7816 the response bytes are treated as two separate bytes with
+ split meanings. This function allows you to create a response based on
+ two separate bytes. This function could fail, in which case it will return
+ NULL.
+
+ VCardResponse *vcard_response_new_bytes(unsigned char *buf, int len,
+ unsigned char sw1,
+ unsigned char sw2);
+
+ This function is the same as vcard_response_new except you may specify
+ the status as two separate bytes like vcard_response_new_status_bytes.
+
+
+Implementing functionality ---
+
+The following helper functions access information about the current card
+and applet.
+
+ VCARDAppletPrivate *vcard_get_current_applet_private(VCard *card,
+ int channel);
+
+ This function returns any private data set by the card type emulator on
+ the currently selected applet. The card type emulator keeps track of the
+ current applet state in this data structure. Any certs and keys associated
+ with a particular applet is also stored here.
+
+ int vcard_emul_get_login_count(VCard *card);
+
+ This function returns the the number of remaining login attempts for this
+ card. If the card emulator does not know, or the card does not have a
+ way of giving this information, this function returns -1.
+
+
+ VCard7816Status vcard_emul_login(VCard *card, unsigned char *pin,
+ int pin_len);
+
+ This function logs into the card and returns the standard 7816 status
+ word depending on the success or failure of the call.
+
+ void vcard_emul_delete_key(VCardKey *key);
+
+ This function frees the VCardKey passed in to xxxx_card_init. The card
+ type emulator is responsible for freeing this key when it no longer needs
+ it.
+
+ VCard7816Status vcard_emul_rsa_op(VCard *card, VCardKey *key,
+ unsigned char *buffer,
+ int buffer_size);
+
+ This function does a raw rsa op on the buffer with the given key.
+
+The sample card type emulator is found in cac.c. It implements the cac specific
+applets. Only those applets needed by the coolkey pkcs#11 driver on the guest
+have been implemented. To support the full range CAC middleware, a complete CAC
+card according to the CAC specs should be implemented here.
+
+------------------------------
+Virtual Card Emulator
+
+This code accesses both real smart cards and simulated smart cards through
+services provided on the client. The current implementation uses NSS, which
+already knows how to talk to various PKCS #11 modules on the client, and is
+portable to most operating systems. A particular emulator can have only one
+virtual card implementation at a time.
+
+The virtual card emulator consists of a series of virtual card services. In
+addition to the services describe above (services starting with
+vcard_emul_xxxx), the virtual card emulator also provides the following
+functions:
+
+ VCardEmulError vcard_emul_init(cont VCardEmulOptions *options);
+
+ The options structure is built by another function in the virtual card
+ interface where a string of virtual card emulator specific strings are
+ mapped to the options. The actual structure is defined by the virtual card
+ emulator and is used to determine the configuration of soft cards, or to
+ determine which physical cards to present to the guest.
+
+ The vcard_emul_init function will build up sets of readers, create any
+ threads that are needed to watch for changes in the reader state. If readers
+ have cards present in them, they are also initialized.
+
+ Readers are created with the function.
+
+ VReader *vreader_new(VReaderEmul *reader_emul,
+ VReaderEmulFree reader_emul_free);
+
+ The freeFunc is used to free the VReaderEmul * when the reader is
+ destroyed. The VReaderEmul structure is an opaque structure to the
+ rest of the code, but defined by the virtual card emulator, which can
+ use it to store any reader specific state.
+
+ Once the reader has been created, it can be added to the front end with the
+ call:
+
+ VReaderStatus vreader_add_reader(VReader *reader);
+
+ This function will automatically generate the appropriate new reader
+ events and add the reader to the list.
+
+ To create a new card, the virtual card emulator will call a similar
+ function.
+
+ VCard *vcard_new(VCardEmul *card_emul,
+ VCardEmulFree card_emul_free);
+
+ Like vreader_new, this function takes a virtual card emulator specific
+ structure which it uses to keep track of the card state.
+
+ Once the card is created, it is attached to a card type emulator with the
+ following function:
+
+ VCardStatus vcard_init(VCard *vcard, VCardEmulType type,
+ const char *flags,
+ unsigned char *const *certs,
+ int *cert_len,
+ VCardKey *key[],
+ int cert_count);
+
+ The vcard is the value returned from vcard_new. The type is the
+ card type emulator that this card should presented to the guest as.
+ The flags are card type emulator specific options. The certs,
+ cert_len, and keys are all arrays of length cert_count. These are the
+ the same of the parameters xxxx_card_init() accepts.
+
+ Finally the card is associated with its reader by the call:
+
+ VReaderStatus vreader_insert_card(VReader *vreader, VCard *vcard);
+
+ This function, like vreader_add_reader, will take care of any event
+ notification for the card insert.
+
+
+ VCardEmulError vcard_emul_force_card_remove(VReader *vreader);
+
+ Force a card that is present to appear to be removed to the guest, even if
+ that card is a physical card and is present.
+
+
+ VCardEmulError vcard_emul_force_card_insert(VReader *reader);
+
+ Force a card that has been removed by vcard_emul_force_card_remove to be
+ reinserted from the point of view of the guest. This will only work if the
+ card is physically present (which is always true fro a soft card).
+
+ void vcard_emul_get_atr(Vcard *card, unsigned char *atr, int *atr_len);
+
+ Return the virtual ATR for the card. By convention this should be the value
+ VCARD_ATR_PREFIX(size) followed by several ascii bytes related to this
+ particular emulator. For instance the NSS emulator returns
+ {VCARD_ATR_PREFIX(3), 'N', 'S', 'S' }. Do ot return more data then *atr_len;
+
+ void vcard_emul_reset(VCard *card, VCardPower power)
+
+ Set the state of 'card' to the current power level and reset its internal
+ state (logout, etc).
+
+-------------------------------------------------------
+List of files and their function:
+README - This file
+card_7816.c - emulate basic 7816 functionality. Parse APDUs.
+card_7816.h - apdu and response services definitions.
+card_7816t.h - 7816 specific structures, types and definitions.
+event.c - event handling code.
+event.h - event handling services definitions.
+eventt.h - event handling structures and types
+vcard.c - handle common virtual card services like creation, destruction, and
+ applet management.
+vcard.h - common virtual card services function definitions.
+vcardt.h - comon virtual card types
+vreader.c - common virtual reader services.
+vreader.h - common virtual reader services definitions.
+vreadert.h - comon virtual reader types.
+vcard_emul_type.c - manage the card type emulators.
+vcard_emul_type.h - definitions for card type emulators.
+cac.c - card type emulator for CAC cards
+vcard_emul.h - virtual card emulator service definitions.
+vcard_emul_nss.c - virtual card emulator implementation for nss.
+vscclient.c - socket connection to guest qemu usb driver.
+vscard_common.h - common header with the guest qemu usb driver.
+mutex.h - header file for machine independent mutexes.
+link_test.c - static test to make sure all the symbols are properly defined.