fido_dev_set_sigmask

FIDO_DEV_SET_IO_FUNCTIONS(3) Library Functions Manual FIDO_DEV_SET_IO_FUNCTIONS(3)

fido_dev_set_io_functions, fido_dev_set_sigmask, fido_dev_set_timeout, fido_dev_set_transport_functions, fido_dev_io_handle
FIDO2 device I/O interface

#include <fido.h>
typedef void *fido_dev_io_open_t(const char *); 
typedef void  fido_dev_io_close_t(void *); 
typedef int   fido_dev_io_read_t(void *, unsigned char *, size_t, int); 
typedef int   fido_dev_io_write_t(void *, const unsigned char *, size_t); 
 
typedef struct fido_dev_io { 
	fido_dev_io_open_t  *open; 
	fido_dev_io_close_t *close; 
	fido_dev_io_read_t  *read; 
	fido_dev_io_write_t *write; 
} fido_dev_io_t; 
 
#ifdef _WIN32 
typedef int fido_sigset_t; 
#else 
typedef sigset_t fido_sigset_t; 
#endif 
 
typedef int   fido_dev_rx_t(struct fido_dev *, 
                  uint8_t, unsigned char *, size_t, int); 
typedef int   fido_dev_tx_t(struct fido_dev *, 
                  uint8_t, const unsigned char *, size_t); 
 
typedef struct fido_dev_transport { 
	fido_dev_rx_t *rx; 
	fido_dev_tx_t *tx; 
} fido_dev_transport_t;

int
fido_dev_set_io_functions(fido_dev_t *dev, const fido_dev_io_t *io);
int
fido_dev_set_sigmask(fido_dev_t *dev, const fido_sigset_t *sigmask);
int
fido_dev_set_timeout(fido_dev_t *dev, int ms);
int
fido_dev_set_transport_functions(fido_dev_t *dev, const fido_dev_transport_t *t);
void *
fido_dev_io_handle(const fido_dev_t *dev);

The fido_dev_set_io_functions() function sets the I/O handlers used by libfido2 to talk to dev. By default, these handlers are set to the operating system's native HID or NFC interfaces. They are defined as follows:
fido_dev_open_t
Receives a const char * holding a path and opens the corresponding device, returning a non-NULL opaque pointer on success and NULL on error.
fido_dev_close_t
Receives the opaque pointer returned by fido_dev_open_t and closes the device.
fido_dev_read_t
Reads a single transmission unit (HID report, APDU) from a device. The first parameter is the opaque pointer returned by fido_dev_open_t. The second parameter is the read buffer, and the third parameter is the read buffer size. The fourth parameter is the number of milliseconds the caller is willing to sleep, should the call need to block. If this value holds -1, fido_dev_read_t may block indefinitely. On success, the number of bytes read is returned. On error, -1 is returned.
fido_dev_write_t
Writes a single transmission unit (HID report, APDU) to dev. The first parameter is the opaque pointer returned by fido_dev_open_t. The second parameter is the write buffer, and the third parameter is the number of bytes to be written. A fido_dev_write_t may block. On success, the number of bytes written is returned. On error, -1 is returned.
When calling fido_dev_set_io_functions(), the open, close, read, and write fields of io may not be NULL.
No references to io are held by fido_dev_set_io_functions().
The fido_dev_set_sigmask() function may be used to specify a non-NULL signal mask sigmask to be used while libfido2's default I/O handlers wait on dev. On UNIX-like operating systems, fido_sigset_t is defined as sigset_t. On Windows, fido_sigset_t is defined as int and fido_dev_set_sigmask() is a no-op.
No references to sigmask are held by fido_dev_set_sigmask().
The fido_dev_set_timeout() function informs libfido2 not to block for more than ms milliseconds while communicating with dev. If a timeout occurs, the corresponding fido_dev_* function will fail with FIDO_ERR_RX. If ms is -1, then libfido2 may block indefinitely. This is the default behaviour. When using the Windows Hello backend, ms is used as a guidance and may be overwritten by the platform.
The fido_dev_set_transport_functions() function sets the transport functions used by libfido2 to talk to dev. While the I/O handlers are responsible for sending and receiving transmission units of initialization and continuation packets already formatted by libfido2, the transport handlers are responsible for sending and receiving the CTAPHID commands and data directly, as defined in the FIDO Client to Authenticator Protocol (CTAP) standard. They are defined as follows:
fido_dev_tx_t
Receives a device, a CTAPHID command to transmit, a data buffer to transmit, and the length of the data buffer. On success, 0 is returned. On error, -1 is returned.
fido_dev_rx_t
Receives a device, a CTAPHID command whose response the caller expects to receive, a data buffer to receive into, the size of the data buffer determining the maximum length of a response, and the maximum number of milliseconds to wait for a response. On success, the number of bytes read into the data buffer is returned. On error, -1 is returned.
When transport functions are specified, libfido2 will use them instead of the read and write functions of the I/O handlers. However, the I/O handlers must still be specified to open and close the device.
The fido_dev_io_handle() function returns the opaque pointer returned by the open function of the I/O handlers. This is useful mainly for the transport functions, which unlike the I/O handlers are passed the fido_dev_t pointer instead of the opaque I/O handle.

On success, fido_dev_set_io_functions(), fido_dev_set_transport_functions(), fido_dev_set_sigmask(), and fido_dev_set_timeout() return FIDO_OK. On error, a different error code defined in <fido/err.h> is returned.

fido_dev_info_manifest(3), fido_dev_open(3)
Client to Authenticator Protocol (CTAP), https://fidoalliance.org/specs/fido-v2.1-ps-20210615/fido-client-to-authenticator-protocol-v2.1-ps-20210615.html, FIDO Alliance, 2021-06-15, Proposed Standard, Version 2.1.
May 25, 2018 Linux 5.3.12-arch1-1