Reorganized system call library; uses separate file per call now.

New configuration header file to include/ exclude functionality.
Extracted privileged features from struct proc and create new struct priv.
Renamed various system calls for readability.

kernel/system/do_vdevio.c

@@ -0,0 +1,126 @@
+/* The system call implemented in this file:
+ *   m_type:	SYS_VDEVIO
+ *
+ * The parameters for this system call are:
+ *    m2_i3:	DIO_REQUEST	(request input or output)	
+ *    m2_i1:	DIO_TYPE	(flag indicating byte, word, or long)
+ *    m2_p1:	DIO_VEC_ADDR	(pointer to port/ value pairs)	
+ *    m2_i2:	DIO_VEC_SIZE	(number of ports to read or write) 
+ */
+
+#include "../system.h"
+#include <minix/devio.h>
+
+#if USE_VDEVIO
+
+
+/* Buffer for SYS_VDEVIO to copy (port,value)-pairs from/ to user. */
+PRIVATE char vdevio_pv_buf[VDEVIO_BUF_SIZE];      
+
+/* SYS_VDEVIO sends a pointer to a (port,value)-pairs vector at the caller. 
+ * Define the maximum number of (port,value)-pairs that can be handled in a 
+ * in a single SYS_VDEVIO system call based on the struct definitions. 
+ */
+#define MAX_PVB_PAIRS ((VDEVIO_BUF_SIZE * sizeof(char)) / sizeof(pvb_pair_t))
+#define MAX_PVW_PAIRS ((VDEVIO_BUF_SIZE * sizeof(char)) / sizeof(pvw_pair_t))
+#define MAX_PVL_PAIRS ((VDEVIO_BUF_SIZE * sizeof(char)) / sizeof(pvl_pair_t))
+	
+
+/*===========================================================================*
+ *			        do_vdevio                                    *
+ *===========================================================================*/
+PUBLIC int do_vdevio(m_ptr)
+register message *m_ptr;	/* pointer to request message */
+{
+/* Perform a series of device I/O on behalf of a non-kernel process. The 
+ * I/O addresses and I/O values are fetched from and returned to some buffer
+ * in user space. The actual I/O is wrapped by lock() and unlock() to prevent
+ * that I/O batch from being interrrupted.
+ * This is the counterpart of do_devio, which performs a single device I/O. 
+ */ 
+    pvb_pair_t *pvb_pairs;      /* needed for byte values */
+    pvw_pair_t *pvw_pairs;      /* needed for word values */
+    pvl_pair_t *pvl_pairs;      /* needed for long values */
+    int i;
+    pid_t caller_pid;           /* process id of caller */
+    size_t bytes;               /* # bytes to be copied */
+    vir_bytes caller_vir;       /* virtual address at caller */
+    phys_bytes caller_phys;     /* physical address at caller */
+    phys_bytes kernel_phys;     /* physical address in kernel */
+
+    
+    /* Check if nr of ports is ok and get size of (port,value) data. */
+    if (m_ptr->DIO_VEC_SIZE <= 0) return(EINVAL);
+    switch(m_ptr->DIO_TYPE) {
+    	case DIO_BYTE:
+    	    if (m_ptr->DIO_VEC_SIZE > MAX_PVB_PAIRS)  return(EINVAL);
+    	    bytes = (size_t) (m_ptr->DIO_VEC_SIZE * sizeof(pvb_pair_t));
+    	    break;
+    	case DIO_WORD:
+    	    if (m_ptr->DIO_VEC_SIZE > MAX_PVW_PAIRS)  return(EINVAL);
+    	    bytes = (size_t) (m_ptr->DIO_VEC_SIZE * sizeof(pvw_pair_t));
+    	    break;
+    	case DIO_LONG:
+    	    if (m_ptr->DIO_VEC_SIZE > MAX_PVL_PAIRS)  return(EINVAL);
+    	    bytes = (size_t) (m_ptr->DIO_VEC_SIZE * sizeof(pvl_pair_t));
+    	    break;
+    	default:	/* this once and for all checks for a correct type */
+    	    return(EINVAL);
+    }
+
+    /* Calculate physical addresses and copy (port,value)-pairs from user. */
+    caller_pid = (pid_t) m_ptr->m_source; 
+    caller_vir = (vir_bytes) m_ptr->DIO_VEC_ADDR;
+    caller_phys = umap_local(proc_addr(caller_pid), D, caller_vir, bytes);
+    if (0 == caller_phys) return EFAULT;
+    kernel_phys = vir2phys(vdevio_pv_buf);
+    phys_copy(caller_phys, kernel_phys, (phys_bytes) bytes);
+
+    /* Perform actual device I/O for byte, word, and long values. Note that 
+    * the entire switch is wrapped in lock() and unlock() to prevent the I/O
+    * batch from being interrupted. It may be cleaner to do this just around 
+    * the for loops, but this results in rather lenghty code.
+    */
+    lock(13, "do_vdevio");
+    switch (m_ptr->DIO_TYPE) {
+        case DIO_BYTE: 					 /* byte values */
+            pvb_pairs = (pvb_pair_t *) vdevio_pv_buf;
+            if (DIO_INPUT == m_ptr->DIO_REQUEST) { 
+                for (i=0; i < m_ptr->DIO_VEC_SIZE; i++) 
+                    pvb_pairs[i].value = inb(pvb_pairs[i].port); 
+            } else { 
+                for (i=0; i < m_ptr->DIO_VEC_SIZE; i++) 
+                    outb(pvb_pairs[i].port, pvb_pairs[i].value); 
+            } 
+            break; 
+        case DIO_WORD:					  /* word values */
+            pvw_pairs = (pvw_pair_t *) vdevio_pv_buf;
+            if (DIO_INPUT == m_ptr->DIO_REQUEST) {
+                for (i=0; i < m_ptr->DIO_VEC_SIZE; i++) 
+                    pvw_pairs[i].value = inw(pvw_pairs[i].port);  
+            } else {
+                for (i=0; i < m_ptr->DIO_VEC_SIZE; i++) 
+                    outw(pvw_pairs[i].port, pvw_pairs[i].value); 
+            }
+            break; 
+	case DIO_LONG:			/* fall through: long values */
+        default:  /* only DIO_LONG can arrive here, see above switch */
+            pvl_pairs = (pvl_pair_t *) vdevio_pv_buf;
+            if (DIO_INPUT == m_ptr->DIO_REQUEST) { 
+                for (i=0; i < m_ptr->DIO_VEC_SIZE; i++) 
+                    pvl_pairs[i].value = inl(pvl_pairs[i].port);  
+            } else {
+                for (i=0; i < m_ptr->DIO_VEC_SIZE; i++) 
+                    outl(pvb_pairs[i].port, pvl_pairs[i].value); 
+            }
+    }
+    unlock(13);
+    
+    /* Almost done, copy back results for input requests. */
+    if (DIO_INPUT == m_ptr->REQUEST)
+        phys_copy(kernel_phys, caller_phys, (phys_bytes) bytes);
+    return(OK);
+}
+
+#endif /* USE_VDEVIO */
+