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authorKrzysztof Halasa <khc@pm.waw.pl>2009-09-05 03:59:49 +0000
committerDavid S. Miller <davem@davemloft.net>2009-09-07 01:56:49 -0700
commit5dbc46506a4f7b9f564bb7589a49ed32bc1caa15 (patch)
tree160ba16158671e2967e37f9d7feab8dbc2707141 /drivers
parent32e6a0c82e7a7991a02414d830f262e1f4db73e6 (diff)
IXP42x HSS support for setting internal clock rate
HSS usually uses external clocks, so it's not a big deal. Internal clock is used for direct DTE-DTE connections and when the DCE doesn't provide it's own clock. This also depends on the oscillator frequency. Intel seems to have calculated the clock register settings for 33.33 MHz (66.66 MHz timer base). Their settings seem quite suboptimal both in terms of average frequency (60 ppm is unacceptable for G.703 applications, their primary intended usage(?)) and jitter. Many (most?) platforms use a 33.333 MHz oscillator, a 10 ppm difference from Intel's base. Instead of creating static tables, I've created a procedure to program the HSS clock register. The register consists of 3 parts (A, B, C). The average frequency (= bit rate) is: 66.66x MHz / (A + (B + 1) / (C + 1)) The procedure aims at the closest average frequency, possibly at the cost of increased jitter. Nobody would be able to directly drive an unbufferred transmitter with a HSS anyway, and the frequency error is what it really counts. I've verified the above with an oscilloscope on IXP425. It seems IXP46x and possibly IXP43x use a bit different clock generation algorithm - it looks like the avg frequency is: (on IXP465) 66.66x MHz / (A + B / (C + 1)). Also they use much greater precomputed A and B - on IXP425 it would simply result in more jitter, but I don't know how does it work on IXP46x (perhaps 3 least significant bits aren't used?). Anyway it looks that they were aiming for exactly +60 ppm or -60 ppm, while <1 ppm is typically possible (with a synchronized clock, of course). The attached patch makes it possible to set almost any bit rate (my IXP425 533 MHz quits at > 22 Mb/s if a single port is used, and the minimum is ca. 65 Kb/s). This is independent of MVIP (multi-E1/T1 on one HSS) mode. Signed-off-by: Krzysztof HaƂasa <khc@pm.waw.pl> Signed-off-by: David S. Miller <davem@davemloft.net>
Diffstat (limited to 'drivers')
-rw-r--r--drivers/net/wan/ixp4xx_hss.c95
1 files changed, 91 insertions, 4 deletions
diff --git a/drivers/net/wan/ixp4xx_hss.c b/drivers/net/wan/ixp4xx_hss.c
index bb719b6114c..c705046d861 100644
--- a/drivers/net/wan/ixp4xx_hss.c
+++ b/drivers/net/wan/ixp4xx_hss.c
@@ -166,6 +166,29 @@
#define CLK46X_SPEED_4096KHZ (( 16 << 22) | (280 << 12) | 1023)
#define CLK46X_SPEED_8192KHZ (( 8 << 22) | (280 << 12) | 2047)
+/*
+ * HSS_CONFIG_CLOCK_CR register consists of 3 parts:
+ * A (10 bits), B (10 bits) and C (12 bits).
+ * IXP42x HSS clock generator operation (verified with an oscilloscope):
+ * Each clock bit takes 7.5 ns (1 / 133.xx MHz).
+ * The clock sequence consists of (C - B) states of 0s and 1s, each state is
+ * A bits wide. It's followed by (B + 1) states of 0s and 1s, each state is
+ * (A + 1) bits wide.
+ *
+ * The resulting average clock frequency (assuming 33.333 MHz oscillator) is:
+ * freq = 66.666 MHz / (A + (B + 1) / (C + 1))
+ * minumum freq = 66.666 MHz / (A + 1)
+ * maximum freq = 66.666 MHz / A
+ *
+ * Example: A = 2, B = 2, C = 7, CLOCK_CR register = 2 << 22 | 2 << 12 | 7
+ * freq = 66.666 MHz / (2 + (2 + 1) / (7 + 1)) = 28.07 MHz (Mb/s).
+ * The clock sequence is: 1100110011 (5 doubles) 000111000 (3 triples).
+ * The sequence takes (C - B) * A + (B + 1) * (A + 1) = 5 * 2 + 3 * 3 bits
+ * = 19 bits (each 7.5 ns long) = 142.5 ns (then the sequence repeats).
+ * The sequence consists of 4 complete clock periods, thus the average
+ * frequency (= clock rate) is 4 / 142.5 ns = 28.07 MHz (Mb/s).
+ * (max specified clock rate for IXP42x HSS is 8.192 Mb/s).
+ */
/* hss_config, LUT entries */
#define TDMMAP_UNASSIGNED 0
@@ -239,6 +262,7 @@ struct port {
unsigned int clock_type, clock_rate, loopback;
unsigned int initialized, carrier;
u8 hdlc_cfg;
+ u32 clock_reg;
};
/* NPE message structure */
@@ -393,7 +417,7 @@ static void hss_config(struct port *port)
msg.cmd = PORT_CONFIG_WRITE;
msg.hss_port = port->id;
msg.index = HSS_CONFIG_CLOCK_CR;
- msg.data32 = CLK42X_SPEED_2048KHZ /* FIXME */;
+ msg.data32 = port->clock_reg;
hss_npe_send(port, &msg, "HSS_SET_CLOCK_CR");
memset(&msg, 0, sizeof(msg));
@@ -1160,6 +1184,62 @@ static int hss_hdlc_attach(struct net_device *dev, unsigned short encoding,
}
}
+static u32 check_clock(u32 rate, u32 a, u32 b, u32 c,
+ u32 *best, u32 *best_diff, u32 *reg)
+{
+ /* a is 10-bit, b is 10-bit, c is 12-bit */
+ u64 new_rate;
+ u32 new_diff;
+
+ new_rate = ixp4xx_timer_freq * (u64)(c + 1);
+ do_div(new_rate, a * (c + 1) + b + 1);
+ new_diff = abs((u32)new_rate - rate);
+
+ if (new_diff < *best_diff) {
+ *best = new_rate;
+ *best_diff = new_diff;
+ *reg = (a << 22) | (b << 12) | c;
+ }
+ return new_diff;
+}
+
+static void find_best_clock(u32 rate, u32 *best, u32 *reg)
+{
+ u32 a, b, diff = 0xFFFFFFFF;
+
+ a = ixp4xx_timer_freq / rate;
+
+ if (a > 0x3FF) { /* 10-bit value - we can go as slow as ca. 65 kb/s */
+ check_clock(rate, 0x3FF, 1, 1, best, &diff, reg);
+ return;
+ }
+ if (a == 0) { /* > 66.666 MHz */
+ a = 1; /* minimum divider is 1 (a = 0, b = 1, c = 1) */
+ rate = ixp4xx_timer_freq;
+ }
+
+ if (rate * a == ixp4xx_timer_freq) { /* don't divide by 0 later */
+ check_clock(rate, a - 1, 1, 1, best, &diff, reg);
+ return;
+ }
+
+ for (b = 0; b < 0x400; b++) {
+ u64 c = (b + 1) * (u64)rate;
+ do_div(c, ixp4xx_timer_freq - rate * a);
+ c--;
+ if (c >= 0xFFF) { /* 12-bit - no need to check more 'b's */
+ if (b == 0 && /* also try a bit higher rate */
+ !check_clock(rate, a - 1, 1, 1, best, &diff, reg))
+ return;
+ check_clock(rate, a, b, 0xFFF, best, &diff, reg);
+ return;
+ }
+ if (!check_clock(rate, a, b, c, best, &diff, reg))
+ return;
+ if (!check_clock(rate, a, b, c + 1, best, &diff, reg))
+ return;
+ }
+}
static int hss_hdlc_ioctl(struct net_device *dev, struct ifreq *ifr, int cmd)
{
@@ -1182,7 +1262,7 @@ static int hss_hdlc_ioctl(struct net_device *dev, struct ifreq *ifr, int cmd)
}
memset(&new_line, 0, sizeof(new_line));
new_line.clock_type = port->clock_type;
- new_line.clock_rate = 2048000; /* FIXME */
+ new_line.clock_rate = port->clock_rate;
new_line.loopback = port->loopback;
if (copy_to_user(line, &new_line, size))
return -EFAULT;
@@ -1206,7 +1286,13 @@ static int hss_hdlc_ioctl(struct net_device *dev, struct ifreq *ifr, int cmd)
return -EINVAL;
port->clock_type = clk; /* Update settings */
- /* FIXME port->clock_rate = new_line.clock_rate */;
+ if (clk == CLOCK_INT)
+ find_best_clock(new_line.clock_rate, &port->clock_rate,
+ &port->clock_reg);
+ else {
+ port->clock_rate = 0;
+ port->clock_reg = CLK42X_SPEED_2048KHZ;
+ }
port->loopback = new_line.loopback;
spin_lock_irqsave(&npe_lock, flags);
@@ -1266,7 +1352,8 @@ static int __devinit hss_init_one(struct platform_device *pdev)
dev->netdev_ops = &hss_hdlc_ops;
dev->tx_queue_len = 100;
port->clock_type = CLOCK_EXT;
- port->clock_rate = 2048000;
+ port->clock_rate = 0;
+ port->clock_reg = CLK42X_SPEED_2048KHZ;
port->id = pdev->id;
port->dev = &pdev->dev;
port->plat = pdev->dev.platform_data;